Instrument Platform Pair List
Get a list of InstrumentPlaformPair objects. InstrumentPlaformPairs are used within Acquisitions which
enable linking between Instruments, Platforms and Observations (though may be via CompositeProcesses).
GET /api/v3/ipps/?format=api&offset=800
{ "count": 14115, "next": "https://api.catalogue.ceda.ac.uk/api/v3/ipps/?format=api&limit=100&offset=900", "previous": "https://api.catalogue.ceda.ac.uk/api/v3/ipps/?format=api&limit=100&offset=700", "results": [ { "ob_id": 868, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 2361, "uuid": "d8933a96415042e0bbf256ed7b9b84fa", "short_code": "instr", "title": "MRF - C-130 - Passive Cavity Aerosol Spectrometer Probe (PCASP)", "abstract": "A Passive Cavity Aerosol Spectrometer Probe (PMS model PCASP-100X) was used to\ncount number concentrations (number per cm3) of particles in 15 channels spaced\npseudo-logarithmically over the diameter range 0.10 micrometres to 3.00\nmicrometres, to provide a particle size distribution over this range. The\ninstrument has been used as provided by the manufacturer, except for\nmodifications to monitor air flows. The instrument operates on the principle\nthat the light scattered by a particle within an active laser cavity is a\ndirect function of its size.\n\nThe PCASP has a fast response: PMS quote that it can count at least 20,000\nparticles per second." }, "relatedTo": { "ob_id": 2486, "uuid": "026ae02271e54d5c85f63eeebda1125d", "short_code": "acq", "title": "MRF Flight A771", "abstract": "MRF Flight A771" } }, { "ob_id": 869, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 2495, "uuid": "3807fe27036943bca0a1fb035c5921b2", "short_code": "instr", "title": "MRF: Fluorescence water vapour sensor", "abstract": "Fluorescence water vapour sensor onboard the Met Office Meteorological Research Flight (MRF) C-130" }, "relatedTo": { "ob_id": 2486, "uuid": "026ae02271e54d5c85f63eeebda1125d", "short_code": "acq", "title": "MRF Flight A771", "abstract": "MRF Flight A771" } }, { "ob_id": 870, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 2365, "uuid": "e7bf525b13714a9ebba2835c61fadd49", "short_code": "instr", "title": "MRF: Condensation Nucleus Counter Model 3025A", "abstract": "Ultrafine condensation particle counter (TSI INC Model 3025A) onboard the Met Office Meteorolgical Research Flight (MRF) C-130 aircraft." }, "relatedTo": { "ob_id": 2486, "uuid": "026ae02271e54d5c85f63eeebda1125d", "short_code": "acq", "title": "MRF Flight A771", "abstract": "MRF Flight A771" } }, { "ob_id": 871, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 435, "uuid": "664255f873ee494e9ede8e407afdfeca", "short_code": "instr", "title": "MRF - C-130 aircraft in-situ Instrumentation", "abstract": "The C-130 aircraft carried various of instrumentation for research purposes. The large capacity and long endurance of this platform made it ideal for atmospheric research in the areas of cloud physics, atmospheric radiation, atmospheric chemistry, satellite activities, mesoscale meteorology and boundary layer studies." }, "relatedTo": { "ob_id": 2486, "uuid": "026ae02271e54d5c85f63eeebda1125d", "short_code": "acq", "title": "MRF Flight A771", "abstract": "MRF Flight A771" } }, { "ob_id": 872, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 2505, "uuid": "d99c1aab18bc4953ad58d002e414b9bb", "short_code": "instr", "title": "MRF: Johnson-Williams Liquid Water Content Meter", "abstract": "Johnson-Williams Liquid Water Content Meter onboard the Met Office Meteorological Research Flight (MRF)) C-130.\r\n\r\nOperating principle: \r\nHot wire instrument. Liquid contacts sample wire. Liquid evaporates, altering resistance of wire with comparison to control wire shielded against liquid.\r\n\r\nFor measurement of Clouds microphysics/Liquid/ice Water Content" }, "relatedTo": { "ob_id": 2486, "uuid": "026ae02271e54d5c85f63eeebda1125d", "short_code": "acq", "title": "MRF Flight A771", "abstract": "MRF Flight A771" } }, { "ob_id": 873, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 57, "uuid": "10833aa2571b4a9d9cacbac33edc49d5", "short_code": "instr", "title": "UEA: NOxy 4 channel NO, NO2, NOy, NOy* chemiluminescence analyser", "abstract": "An instrument from the Penkett group at UEA.\nThe instrument measures nitrogen compounds using chemiluminescence." }, "relatedTo": { "ob_id": 2486, "uuid": "026ae02271e54d5c85f63eeebda1125d", "short_code": "acq", "title": "MRF Flight A771", "abstract": "MRF Flight A771" } }, { "ob_id": 874, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 2512, "uuid": "56c310d9153c4d688fa405cdc53d3908", "short_code": "instr", "title": "MRF - C-130 - UV Absorption instrument", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2486, "uuid": "026ae02271e54d5c85f63eeebda1125d", "short_code": "acq", "title": "MRF Flight A771", "abstract": "MRF Flight A771" } }, { "ob_id": 875, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 2397, "uuid": "ba119042c19043fd9ef8eebe39773379", "short_code": "instr", "title": "MRF - C-130 - PAN gas chromatograph", "abstract": "PAN gas chromatographer built-in by MRF." }, "relatedTo": { "ob_id": 2486, "uuid": "026ae02271e54d5c85f63eeebda1125d", "short_code": "acq", "title": "MRF Flight A771", "abstract": "MRF Flight A771" } }, { "ob_id": 876, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 2519, "uuid": "9748ee644903479d84abf1939c5ac80b", "short_code": "instr", "title": "Met Office - Lyman-Alpha Hygrometer", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2486, "uuid": "026ae02271e54d5c85f63eeebda1125d", "short_code": "acq", "title": "MRF Flight A771", "abstract": "MRF Flight A771" } }, { "ob_id": 877, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 196, "uuid": "dac2ad6b673e4e2c9c4973d4f3086251", "short_code": "instr", "title": "UEA: Formaldehyde (HCHO) instrument or Fluorometric", "abstract": "An instrument from the Penkett group at UEA which is flown on research aircrafts to provide 1Hz flourescence measurements of formaldehyde concentration." }, "relatedTo": { "ob_id": 2486, "uuid": "026ae02271e54d5c85f63eeebda1125d", "short_code": "acq", "title": "MRF Flight A771", "abstract": "MRF Flight A771" } }, { "ob_id": 878, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 2526, "uuid": "655ac3e97c5443c7964da63754dd5c2a", "short_code": "instr", "title": "Fast Forward Scattering Spectrometer Probe (PMS canister instrument)", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2486, "uuid": "026ae02271e54d5c85f63eeebda1125d", "short_code": "acq", "title": "MRF Flight A771", "abstract": "MRF Flight A771" } }, { "ob_id": 879, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 787, "uuid": "279a509e3a234c73b7cc26c1af3f71b3", "short_code": "instr", "title": "University of Leeds: GC-FID", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2486, "uuid": "026ae02271e54d5c85f63eeebda1125d", "short_code": "acq", "title": "MRF Flight A771", "abstract": "MRF Flight A771" } }, { "ob_id": 880, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 315, "uuid": "6e6a11c756bf49e48dca59ca002f351b", "short_code": "instr", "title": "Leicester: Spectral Radiometer j(O1D)", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2486, "uuid": "026ae02271e54d5c85f63eeebda1125d", "short_code": "acq", "title": "MRF Flight A771", "abstract": "MRF Flight A771" } }, { "ob_id": 881, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 322, "uuid": "0379654b86d643a4acdd33625487a9c0", "short_code": "instr", "title": "UEA: Peroxides instrument", "abstract": "An instrument from the Penkett group at UEA flown on research aircrafts to provide continuous measurements of gas phase speciated organic peroxides using fluorescence." }, "relatedTo": { "ob_id": 2486, "uuid": "026ae02271e54d5c85f63eeebda1125d", "short_code": "acq", "title": "MRF Flight A771", "abstract": "MRF Flight A771" } }, { "ob_id": 882, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 2539, "uuid": "d6514c6d24c74f9299aa146938d5821a", "short_code": "instr", "title": "UEA: PEroxy Radical Chemical Amplification (PERCA) technique", "abstract": "PEROXY RADICAL CHEMICAL AMPLIFIER (PERCA) measures atmospheric peroxy radicals using chemical amplification." }, "relatedTo": { "ob_id": 2486, "uuid": "026ae02271e54d5c85f63eeebda1125d", "short_code": "acq", "title": "MRF Flight A771", "abstract": "MRF Flight A771" } }, { "ob_id": 883, "platform": { "ob_id": 1913, "uuid": "c5a778cd1ebc4d928890ec1ffca83521", "short_code": "plat", "title": "NOAA Satellite series - 7 to 14", "abstract": "ITOS (Improved TIROS Operational System) was the follow-on to the TIROS series. They were the second generation of operational polar orbiters. Once operational, the satellite's designator was change to NOAA (National Oceanic and Atmopheric Administration Satellite). The primary objective of the ITOS Series of Sun-synchronous meteorological satellites was to provide improved operational infrared and visual observations of Earth cloud cover for use in weather analysis and forecasting. Secondary objectives included measuring snow and ice and the sea surface, and gathering information on the vertical structure of temperature and moisture in the atmosphere on a regular daily basis. Additional instruments, starting with ITOS-D/NOAA -2, also provided both global daytime and nighttime daily direct readout real-time cloudcover data." }, "instrument": { "ob_id": 2549, "uuid": "100dacbe559b4004a6d024cbea0aa617", "short_code": "instr", "title": "TIROS Operational Vertical Sounder (TOVS)", "abstract": "The TIROS Operational Vertical Sounder (TOVS) system consists of three separate sub-instruments: the High Resolution Infrared Radiation Sounder (HIRS), the Microwave Sounding Unit (MSU) and the Stratospheric Sounding Unit (SSU). This system is onboard the NOAA 6 through NOAA 14 and TIROS-N satellites (part of the Polar Orbiting Environmental Satellite (POES) system)." }, "relatedTo": { "ob_id": 2550, "uuid": "0edf4b4cf6d44691ba737581895dcc6d", "short_code": "acq", "title": "Acquisition Process for: Data from TIROS Operational Vertical Sounder (TOVS) at NOAA Satellite series - 7 to 14 for the Climatology Interdisciplinary Data Collection (CIDC) Project", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: TIROS Operational Vertical Sounder (TOVS); PLATFORMS: NOAA Satellite series - 7 to 14; " } }, { "ob_id": 884, "platform": { "ob_id": 1686, "uuid": "23ca6bfcca9342a18cc15e7b2f3e7e60", "short_code": "plat", "title": "NOAA-10", "abstract": "NASA polar-orbiting satellite which operated for the period September 1986 to September 1991." }, "instrument": { "ob_id": 2555, "uuid": "84f529eb3a5640ed9b164427e53ea5f0", "short_code": "instr", "title": "Earth Radiation Budget Experiment (ERBE)", "abstract": "The ERBE instrument aboard ERBS, launched from the Space Shuttle Challenger in October 1984 (STS-41G), had the main aim to provide accurate measurements of incoming solar energy and shortwave and longwave radiation reflected or emitted from the Earth back into space. ERBE instruments were also launched on two National Oceanic and Atmospheric Administration weather monitoring satellites, NOAA 9 and NOAA 10 in 1984 and 1986." }, "relatedTo": { "ob_id": 2556, "uuid": "b9f227d1451c46c292fc8d626944d563", "short_code": "acq", "title": "Acquisition Process for: Data from Earth Radiation Budget Experiment (ERBE) at NOAA-10 for the Climatology Interdisciplinary Data Collection (CIDC) Project", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: Earth Radiation Budget Experiment (ERBE); PLATFORMS: NOAA-10; " } }, { "ob_id": 885, "platform": { "ob_id": 1679, "uuid": "25e813e1539d46aeaf320dc3e4f06b8f", "short_code": "plat", "title": "NOAA-9", "abstract": "NASA polar-orbiting satellite which operated for the period december 1984 to August 1993." }, "instrument": { "ob_id": 2555, "uuid": "84f529eb3a5640ed9b164427e53ea5f0", "short_code": "instr", "title": "Earth Radiation Budget Experiment (ERBE)", "abstract": "The ERBE instrument aboard ERBS, launched from the Space Shuttle Challenger in October 1984 (STS-41G), had the main aim to provide accurate measurements of incoming solar energy and shortwave and longwave radiation reflected or emitted from the Earth back into space. ERBE instruments were also launched on two National Oceanic and Atmospheric Administration weather monitoring satellites, NOAA 9 and NOAA 10 in 1984 and 1986." }, "relatedTo": { "ob_id": 2561, "uuid": "442f9c1ff14b454d9bfb7582379284ea", "short_code": "acq", "title": "Acquisition Process for: Data from Earth Radiation Budget Experiment (ERBE) at NOAA-9 for the Climatology Interdisciplinary Data Collection (CIDC) Project", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: Earth Radiation Budget Experiment (ERBE); PLATFORMS: NOAA-9; " } }, { "ob_id": 886, "platform": { "ob_id": 1178, "uuid": "ea182db997924c3593261ec7dd0d5a31", "short_code": "plat", "title": "Earth Radiation Budget Satellite (ERBS)", "abstract": "One of the longest-running spacecraft missions to date, ERBS was launched on October 5, 1984 on the Space Shuttle Challenger and retired on October 14, 2005. The spacecraft was expected to have a two-year operation life, but ultimately, the mission provided scientific data about the Earth's ozone layer for more than two decades. In addition to the ERBE scanning and nonscanning instruments, the satellite also carried the Stratospheric Aerosol Gas Experiment (SAGE II)." }, "instrument": { "ob_id": 2555, "uuid": "84f529eb3a5640ed9b164427e53ea5f0", "short_code": "instr", "title": "Earth Radiation Budget Experiment (ERBE)", "abstract": "The ERBE instrument aboard ERBS, launched from the Space Shuttle Challenger in October 1984 (STS-41G), had the main aim to provide accurate measurements of incoming solar energy and shortwave and longwave radiation reflected or emitted from the Earth back into space. ERBE instruments were also launched on two National Oceanic and Atmospheric Administration weather monitoring satellites, NOAA 9 and NOAA 10 in 1984 and 1986." }, "relatedTo": { "ob_id": 2566, "uuid": "d349421c08304952aa5346c61de31c7e", "short_code": "acq", "title": "Acquisition Process for: Data from Earth Radiation Budget Experiment (ERBE) at Earth Radiation Budget Satellite (ERBS) for the Climatology Interdisciplinary Data Collection (CIDC) Project", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: Earth Radiation Budget Experiment (ERBE); PLATFORMS: Earth Radiation Budget Satellite (ERBS); " } }, { "ob_id": 887, "platform": { "ob_id": 458, "uuid": "b6d87ac1455348cd97a4386b38995dbb", "short_code": "plat", "title": "NIMBUS 7 Satellite", "abstract": "The NASA Nimbus 7 research-and-development polar-orbiting satellite served as a stabilized, earth-oriented platform for the testing of advanced systems for sensing and collecting data in the pollution, oceanographic and meteorological disciplines. It was launched on October 24, 1978." }, "instrument": { "ob_id": 2570, "uuid": "aa489e056a2e4c85b55c436e1e901b02", "short_code": "instr", "title": "NIMBUS-7 Earth Radiation Budget (ERB)", "abstract": "The Nimbus-7 Earth Radiation Budget (ERB) instrument began recording data on November 16, 1978 and continued through June 20, 1980. The principal products are nine years of global albedo, outgoing longwave, and net radiation plus continuing solar irradiance measurements." }, "relatedTo": { "ob_id": 2571, "uuid": "58cbc822e10d44bc9a66351b996608ad", "short_code": "acq", "title": "Acquisition Process for: Data from NIMBUS-7 Earth Radiation Budget (ERB) at NIMBUS 7 Satellite for the Climatology Interdisciplinary Data Collection (CIDC) Project", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: NIMBUS-7 Earth Radiation Budget (ERB); PLATFORMS: NIMBUS 7 Satellite; " } }, { "ob_id": 888, "platform": { "ob_id": 2576, "uuid": "a53186c969594b32bbc1bacf1bbfa0aa", "short_code": "plat", "title": "Solar Maximum Mission (SMM) satellite", "abstract": "The Solar Maximum Mission (SMM) spacecraft was launched on February 14, 1980, near the height of the solar cycle, to enable the solar phsyics community to examine, in more physically meaningful detail than ever before, the most violent aspect of solar activity: flares. SMM recorded its final data in November, 1989." }, "instrument": { "ob_id": 2577, "uuid": "9450559706e9486eaac0fca70ebd416e", "short_code": "instr", "title": "Active Cavity Radiometer Irradiance Monitor I (ACRIM I)", "abstract": "The Active Cavity Radiometer Irradiance Monitor (ACRIM) I was launched in 1980 on the Solar Maximum Mission (SMM) spacecraft and produced total irradiance data until 1989." }, "relatedTo": { "ob_id": 2579, "uuid": "b1fe2c4d4d5e48f9b1a7120bbb2eb027", "short_code": "acq", "title": "Acquisition Process for: Data from Active Cavity Radiometer Irradiance Monitor I (ACRIM I) at Solar Maximum Mission (SMM) satellite for the Climatology Interdisciplinary Data Collection (CIDC) Project", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: Active Cavity Radiometer Irradiance Monitor I (ACRIM I); PLATFORMS: Solar Maximum Mission (SMM) satellite; " } }, { "ob_id": 889, "platform": { "ob_id": 1635, "uuid": "ce2e8bc13e8d41c5af678f31969677ee", "short_code": "plat", "title": "Upper Air Research Satellite (UARS)", "abstract": "The satellite was launched in 1991 by the Space Shuttle Discovery. It is 35 feet long, 15 feet in diameter, weighs 13,000 pounds, and carries 10 instruments. UARS orbits at an altitude of 375 miles with an orbital inclination of 57 degrees. Designed to operate for three years, UARS was finally decommissioned in December 2005. UARS measures ozone and chemical compounds found in the ozone layer which affect ozone chemistry and processes. UARS also measures winds and temperatures in the stratosphere as well as the energy input from the Sun. Together, these help define the role of the upper atmosphere in climate and climate variability." }, "instrument": { "ob_id": 2583, "uuid": "d06b25bb7fd04525957a70df2ac44702", "short_code": "instr", "title": "Active Cavity Radiometer Irradiance Monitor II (ACRIM II)", "abstract": "ACRIM II was launched on the Upper Atmosphere Research Satellite (UARS) in September 1991." }, "relatedTo": { "ob_id": 2584, "uuid": "f68fb1802a154ee386e6d005510b8edd", "short_code": "acq", "title": "Acquisition Process for: Data from Active Cavity Radiometer Irradiance Monitor II (ACRIM II) at Upper Air Research Satellite (UARS) for the Climatology Interdisciplinary Data Collection (CIDC) Project", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: Active Cavity Radiometer Irradiance Monitor II (ACRIM II); PLATFORMS: Upper Air Research Satellite (UARS); " } }, { "ob_id": 890, "platform": { "ob_id": 1913, "uuid": "c5a778cd1ebc4d928890ec1ffca83521", "short_code": "plat", "title": "NOAA Satellite series - 7 to 14", "abstract": "ITOS (Improved TIROS Operational System) was the follow-on to the TIROS series. They were the second generation of operational polar orbiters. Once operational, the satellite's designator was change to NOAA (National Oceanic and Atmopheric Administration Satellite). The primary objective of the ITOS Series of Sun-synchronous meteorological satellites was to provide improved operational infrared and visual observations of Earth cloud cover for use in weather analysis and forecasting. Secondary objectives included measuring snow and ice and the sea surface, and gathering information on the vertical structure of temperature and moisture in the atmosphere on a regular daily basis. Additional instruments, starting with ITOS-D/NOAA -2, also provided both global daytime and nighttime daily direct readout real-time cloudcover data." }, "instrument": { "ob_id": 1665, "uuid": "65564b1bbd5c4d76aa0638adb40fbcc8", "short_code": "instr", "title": "Advanced Very High Resolution Radiometer (AVHRR)", "abstract": "The AVHRR is a radiation-detection imager that can be used for remotely determining cloud cover and the surface temperature. Note that the term surface can mean the surface of the Earth, the upper surfaces of clouds, or the surface of a body of water. This scanning radiometer uses 6 detectors that collect different bands of radiation wavelengths.\n\nThe first AVHRR was a 4-channel radiometer, first carried on TIROS-N (launched October 1978). This was subsequently improved to a 5-channel instrument (AVHRR/2) that was initially carried on NOAA-7 (launched June 1981). The latest instrument version is AVHRR/3, with 6 channels, first carried on NOAA-15 launched in May 1998." }, "relatedTo": { "ob_id": 2603, "uuid": "281c376a6c2749a7a056f440ab74fd48", "short_code": "acq", "title": "Acquisition Process for: Data from Advanced Very High Resolution Radiometer (AVHRR) at NOAA Satellite series - 7 to 14 for the Climatology Interdisciplinary Data Collection (CIDC) Project", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: Advanced Very High Resolution Radiometer (AVHRR); PLATFORMS: NOAA Satellite series - 7 to 14; " } }, { "ob_id": 891, "platform": { "ob_id": 458, "uuid": "b6d87ac1455348cd97a4386b38995dbb", "short_code": "plat", "title": "NIMBUS 7 Satellite", "abstract": "The NASA Nimbus 7 research-and-development polar-orbiting satellite served as a stabilized, earth-oriented platform for the testing of advanced systems for sensing and collecting data in the pollution, oceanographic and meteorological disciplines. It was launched on October 24, 1978." }, "instrument": { "ob_id": 2607, "uuid": "7d9e1c4143054cfbae6f55197227b0a3", "short_code": "instr", "title": "NIMBUS-7 Coastal Zone Color Scanner (CZCS)", "abstract": "The Coastal Zone Color Scanner (CZCS) instrument flew aboard the Nimbus-7 satellite from October 1978 through June 1986." }, "relatedTo": { "ob_id": 2608, "uuid": "2befed543d514680965e271656663e77", "short_code": "acq", "title": "Acquisition Process for: Data from NIMBUS-7 Coastal Zone Color Scanner (CZCS) at NIMBUS 7 Satellite for the Climatology Interdisciplinary Data Collection (CIDC) Project", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: NIMBUS-7 Coastal Zone Color Scanner (CZCS); PLATFORMS: NIMBUS 7 Satellite; " } }, { "ob_id": 892, "platform": { "ob_id": 458, "uuid": "b6d87ac1455348cd97a4386b38995dbb", "short_code": "plat", "title": "NIMBUS 7 Satellite", "abstract": "The NASA Nimbus 7 research-and-development polar-orbiting satellite served as a stabilized, earth-oriented platform for the testing of advanced systems for sensing and collecting data in the pollution, oceanographic and meteorological disciplines. It was launched on October 24, 1978." }, "instrument": { "ob_id": 459, "uuid": "2d446fb05331419d934c7dd4f31878fd", "short_code": "instr", "title": "NIMBUS-7 Total Ozone Mapping Spectrometer (TOMS)", "abstract": "TOMS was one of eight instruments designed to provide continuous, long-term monitoring of atmospheric, oceanic and surface parameters on a global basis throughout most of the 1980s. The Nimbus-7 TOMS instrument operated from 1st November 1978 to 5th May 1993." }, "relatedTo": { "ob_id": 2612, "uuid": "b9c993c6b73d444784e44cbf49773b10", "short_code": "acq", "title": "Acquisition Process for: Data from NIMBUS-7 Total Ozone Mapping Spectrometer (TOMS) at NIMBUS 7 Satellite for the Climatology Interdisciplinary Data Collection (CIDC) Project", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: NIMBUS-7 Total Ozone Mapping Spectrometer (TOMS); PLATFORMS: NIMBUS 7 Satellite; " } }, { "ob_id": 893, "platform": { "ob_id": 2629, "uuid": "9f1b0a2380cc47919b201880e0fee6de", "short_code": "plat", "title": "Defense Meteorological Satellite Program (DMSP) Satellites", "abstract": "DMSP satellites are used for strategic and tactical weather prediction to aid the U.S. military in planning operations at sea, on land and in the air. Equipped with a sophisticated sensor suite that can image visible and infrared cloud cover and measure precipitation, surface temperature, and soil moisture, the satellite collects specialized global meteorological, oceanographic, and solar-geophysical information in all weather conditions. The DMSP constellation comprises two spacecraft in near-polar orbits, C3 (command, control and communications), user terminals and weather centers." }, "instrument": { "ob_id": 2630, "uuid": "54f897597ec04c09b01095eb05c7419e", "short_code": "instr", "title": "Special Sensor Microwave / Imager (SSM/I)", "abstract": "The SSM/I is a seven-channel, four frequency, linearly-polarized, passive microwave radiometric system which measures atmospheric, ocean and terrain microwave brightness temperatures at 19.35, 22.235, 37.0 and 85.5 GHz. The data are used to obtain synoptic maps of critical atmospheric, oceanographic and selected land parameters on a global scale." }, "relatedTo": { "ob_id": 2632, "uuid": "896406ca1eb2430389aeee51370af747", "short_code": "acq", "title": "Acquisition Process for: Data from Special Sensor Microwave / Imager (SSM/I) at Defense Meteorological Satellite Program (DMSP) Satellites for the Climatology Interdisciplinary Data Collection (CIDC) Project", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: Special Sensor Microwave / Imager (SSM/I); PLATFORMS: Defense Meteorological Satellite Program (DMSP) Satellites; " } }, { "ob_id": 894, "platform": { "ob_id": 458, "uuid": "b6d87ac1455348cd97a4386b38995dbb", "short_code": "plat", "title": "NIMBUS 7 Satellite", "abstract": "The NASA Nimbus 7 research-and-development polar-orbiting satellite served as a stabilized, earth-oriented platform for the testing of advanced systems for sensing and collecting data in the pollution, oceanographic and meteorological disciplines. It was launched on October 24, 1978." }, "instrument": { "ob_id": 2636, "uuid": "1578228cc3cf4b9fba0b88c61b58800b", "short_code": "instr", "title": "Scanning Multichannel Microwave Radiometer (SMMR)", "abstract": "The Scanning Multichannel Microwave Radiometer operated on NASA's Nimbus-7 satellite for more than eight years, from 26 October 1978 to 20 August 1987, transmitting data every other day. Intended to obtain ocean circulation parameters such as sea surface temperatures, low altitude winds, water vapor and cloud liquid water content on an all-weather basis, the SMMR is a ten channel instrument capable of receiving both horizontally and vertically polarized radiation. A parabolic antenna 79 cm in diameter reflected microwave emissions into a five-frequency feed horn. The antenna beam maintained a constant nadir angle of 42 degrees, resulting in an incidence angle of 50.3 degrees at Earth's surface. The antenna was forward viewing and rotated equally +/- 25 degrees about the satellite subtrack. The 50 degree scan provided a 780 km swath of the Earth's surface. Scan period was 4.096 seconds." }, "relatedTo": { "ob_id": 2637, "uuid": "410552b6ed0a4be587704e5b4d641f5d", "short_code": "acq", "title": "Acquisition Process for: Data from Scanning Multichannel Microwave Radiometer (SMMR) at NIMBUS 7 Satellite for the Climatology Interdisciplinary Data Collection (CIDC) Project", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: Scanning Multichannel Microwave Radiometer (SMMR); PLATFORMS: NIMBUS 7 Satellite; " } }, { "ob_id": 895, "platform": { "ob_id": 2650, "uuid": "07ef82cad2ec4bc79efb7ba41b7043df", "short_code": "plat", "title": "Meteosat Second Generation 1 (MSG-1) or METEOSAT-8", "abstract": "Launched on 28 August 2002, the first Meteosat Second Generation (MSG) satellite became operational on 29 January 2004, when it was redesignated Meteosat-8. Since then it has continuously returned highly detailed imagery of Europe, the North Atlantic and Africa every 15 minutes, for operational use by meteorologists.\n MSG-1 has a nominal lifetime of seven years." }, "instrument": { "ob_id": 2651, "uuid": "f16d9f9f95db42b0a1db527ef62c9fdd", "short_code": "instr", "title": "Spinning Enhanced Visible and InfraRed Imager - SEVIRI-1", "abstract": "The Spinning Enhanced Visible and InfraRed Imager (SEVIRI) instrument measures in 12 spectral channels (compared to only 3 on the previous Meteosat) and records data in a 15 minute cycle (30 minutes on the previous Meteosat). The resolution of the high-resolution visible light channel measures 1 km at the sub-satellite point (compared to 2.5 km on the previous Meteosat).\n\nThe first Meteosat Second Generation satellite, MSG-1, came into operational service on 29th January 2004 and was renamed Meteosat-8. MSG-1 has a nominal lifetime of seven years." }, "relatedTo": { "ob_id": 2653, "uuid": "c35bb3f64f9d46caa38cf0cd9d8eab77", "short_code": "acq", "title": "Acquisition Process for: Data from Spinning Enhanced Visible and InfraRed Imager - SEVIRI-1 at Meteosat Second Generation 1 (MSG-1) or METEOSAT-8 for the European Space Agency (ESA)", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: Spinning Enhanced Visible and InfraRed Imager - SEVIRI-1; PLATFORMS: Meteosat Second Generation 1 (MSG-1) or METEOSAT-8; " } }, { "ob_id": 896, "platform": { "ob_id": 2658, "uuid": "b61deca60f694b21a49daeec9489f49a", "short_code": "plat", "title": "Meteosat Second Generation 2 (MSG-2) or METEOSAT-9", "abstract": "The second MSG was launched on 21 December 2005 on the same type of launcher as its predecessor - a standard Ariane 5 - from the same launch site - Kourou in French Guiana. It is currently in the same fixed section of orbital space as MSG-1 in geostationary orbit, close to where the equator meets the Greenwich meridian. \nThe reason for the duplication is simply to guarantee continuity of service in case of satellite failure. Weather satellites have become so crucial a part of our daily life that any long gap in service coverage has become inconceivable." }, "instrument": { "ob_id": 2659, "uuid": "109f54f2aff943c2806295305d26583a", "short_code": "instr", "title": "Spinning Enhanced Visible and InfraRed Imager - SEVIRI- 2", "abstract": "The Spinning Enhanced Visible and InfraRed Imager (SEVIRI) instrument measures in 12 spectral channels (compared to only 3 on the previous Meteosat) and records data in a 15 minute cycle (30 minutes on the previous Meteosat). The resolution of the high-resolution visible light channel measures 1 km at the sub-satellite point (compared to 2.5 km on the previous Meteosat). The second Meteosat Second Generation satellite, MSG-2, came into operational service on 21st December 2005 and was renamed Meteosat-9." }, "relatedTo": { "ob_id": 2661, "uuid": "9c4681d67dca427db2c8f4dfd0babdd1", "short_code": "acq", "title": "Acquisition Process for: Data from Spinning Enhanced Visible and InfraRed Imager - SEVIRI- 2 at Meteosat Second Generation 2 (MSG-2) or METEOSAT-9 for the European Space Agency (ESA)", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: Spinning Enhanced Visible and InfraRed Imager - SEVIRI- 2; PLATFORMS: Meteosat Second Generation 2 (MSG-2) or METEOSAT-9; " } }, { "ob_id": 897, "platform": { "ob_id": 2667, "uuid": "42bdde0442c941128306f2f7050a556f", "short_code": "plat", "title": "Auckland road, Birmimgham, UK", "abstract": "Auckland road, Birmimgham, UK" }, "instrument": { "ob_id": 2668, "uuid": "0f042b80bebb4682bd89f8cff103afab", "short_code": "instr", "title": "Bristol: GC-MS-NICI", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2693, "uuid": "35a6424a034544a78857485e93c57e9c", "short_code": "acq", "title": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK", "abstract": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK " } }, { "ob_id": 898, "platform": { "ob_id": 2672, "uuid": "bd40ce0b73ee48599828d5be0cf44b56", "short_code": "plat", "title": "Birmingham Children's Hospital", "abstract": "Birmingham Children's Hospital, Birmingham" }, "instrument": { "ob_id": 2668, "uuid": "0f042b80bebb4682bd89f8cff103afab", "short_code": "instr", "title": "Bristol: GC-MS-NICI", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2693, "uuid": "35a6424a034544a78857485e93c57e9c", "short_code": "acq", "title": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK", "abstract": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK " } }, { "ob_id": 899, "platform": { "ob_id": 2676, "uuid": "1460273df9904f11996806b563721d81", "short_code": "plat", "title": "AUN site: Birmingham East", "abstract": "Automatic Urban Network site" }, "instrument": { "ob_id": 2668, "uuid": "0f042b80bebb4682bd89f8cff103afab", "short_code": "instr", "title": "Bristol: GC-MS-NICI", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2693, "uuid": "35a6424a034544a78857485e93c57e9c", "short_code": "acq", "title": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK", "abstract": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK " } }, { "ob_id": 900, "platform": { "ob_id": 2680, "uuid": "a43034963a5f43879338b84271a14a51", "short_code": "plat", "title": "Centenary Square", "abstract": "Centenary Square, Birmingham" }, "instrument": { "ob_id": 2668, "uuid": "0f042b80bebb4682bd89f8cff103afab", "short_code": "instr", "title": "Bristol: GC-MS-NICI", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2693, "uuid": "35a6424a034544a78857485e93c57e9c", "short_code": "acq", "title": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK", "abstract": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK " } }, { "ob_id": 901, "platform": { "ob_id": 2684, "uuid": "e92972a5f6724627af334e958bc65004", "short_code": "plat", "title": "Constitution Hill", "abstract": "Constitution Hill, Birmingham " }, "instrument": { "ob_id": 2668, "uuid": "0f042b80bebb4682bd89f8cff103afab", "short_code": "instr", "title": "Bristol: GC-MS-NICI", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2693, "uuid": "35a6424a034544a78857485e93c57e9c", "short_code": "acq", "title": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK", "abstract": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK " } }, { "ob_id": 902, "platform": { "ob_id": 2688, "uuid": "c3a56b1615d84462a327e6690702e7c5", "short_code": "plat", "title": "Dale End / Queens Way", "abstract": "Dale End / Queens Way, Birmingham" }, "instrument": { "ob_id": 2668, "uuid": "0f042b80bebb4682bd89f8cff103afab", "short_code": "instr", "title": "Bristol: GC-MS-NICI", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2693, "uuid": "35a6424a034544a78857485e93c57e9c", "short_code": "acq", "title": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK", "abstract": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK " } }, { "ob_id": 903, "platform": { "ob_id": 2692, "uuid": "1736a13fe80d4ddbaac7d7a31c868e33", "short_code": "plat", "title": "Highgate Park", "abstract": "Highgate Park, Birmingham" }, "instrument": { "ob_id": 2668, "uuid": "0f042b80bebb4682bd89f8cff103afab", "short_code": "instr", "title": "Bristol: GC-MS-NICI", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2693, "uuid": "35a6424a034544a78857485e93c57e9c", "short_code": "acq", "title": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK", "abstract": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK " } }, { "ob_id": 904, "platform": { "ob_id": 2696, "uuid": "554c8052481842a2bb0bc252ef7dd571", "short_code": "plat", "title": "Howard Street", "abstract": "Howard Street, Birmingham" }, "instrument": { "ob_id": 2668, "uuid": "0f042b80bebb4682bd89f8cff103afab", "short_code": "instr", "title": "Bristol: GC-MS-NICI", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2693, "uuid": "35a6424a034544a78857485e93c57e9c", "short_code": "acq", "title": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK", "abstract": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK " } }, { "ob_id": 905, "platform": { "ob_id": 2700, "uuid": "2836f0ff2dd6496f8b928a03560c08bc", "short_code": "plat", "title": "Moat Lane", "abstract": "Moat Lane, Birmingham" }, "instrument": { "ob_id": 2668, "uuid": "0f042b80bebb4682bd89f8cff103afab", "short_code": "instr", "title": "Bristol: GC-MS-NICI", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2693, "uuid": "35a6424a034544a78857485e93c57e9c", "short_code": "acq", "title": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK", "abstract": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK " } }, { "ob_id": 906, "platform": { "ob_id": 2704, "uuid": "e88d8eabf81e47b7b5acb34f670df3f7", "short_code": "plat", "title": "Old Square", "abstract": "Old Square, Birmingham" }, "instrument": { "ob_id": 2668, "uuid": "0f042b80bebb4682bd89f8cff103afab", "short_code": "instr", "title": "Bristol: GC-MS-NICI", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2693, "uuid": "35a6424a034544a78857485e93c57e9c", "short_code": "acq", "title": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK", "abstract": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK " } }, { "ob_id": 907, "platform": { "ob_id": 2708, "uuid": "9c30fbc16db54632a149dfd2c36b6575", "short_code": "plat", "title": "Priory House", "abstract": "Priory House, Birmingham" }, "instrument": { "ob_id": 2668, "uuid": "0f042b80bebb4682bd89f8cff103afab", "short_code": "instr", "title": "Bristol: GC-MS-NICI", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2693, "uuid": "35a6424a034544a78857485e93c57e9c", "short_code": "acq", "title": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK", "abstract": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK " } }, { "ob_id": 908, "platform": { "ob_id": 2712, "uuid": "86488db769b74fe8a0aba2d62b9c3d8e", "short_code": "plat", "title": "Rotunda", "abstract": "Rotunda, Birmingham" }, "instrument": { "ob_id": 2668, "uuid": "0f042b80bebb4682bd89f8cff103afab", "short_code": "instr", "title": "Bristol: GC-MS-NICI", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2693, "uuid": "35a6424a034544a78857485e93c57e9c", "short_code": "acq", "title": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK", "abstract": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK " } }, { "ob_id": 909, "platform": { "ob_id": 2716, "uuid": "597e6ad5fbd94449abb98ed0ab539927", "short_code": "plat", "title": "Salvation Army Roof", "abstract": "Salvation Army roof, Birmingham" }, "instrument": { "ob_id": 2668, "uuid": "0f042b80bebb4682bd89f8cff103afab", "short_code": "instr", "title": "Bristol: GC-MS-NICI", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2693, "uuid": "35a6424a034544a78857485e93c57e9c", "short_code": "acq", "title": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK", "abstract": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK " } }, { "ob_id": 910, "platform": { "ob_id": 2720, "uuid": "dc6cb384889343bdb2943c34d82fec4a", "short_code": "plat", "title": "SND Electrical Wholesalers", "abstract": "SND Electrical Wholesalers, Birmingham" }, "instrument": { "ob_id": 2668, "uuid": "0f042b80bebb4682bd89f8cff103afab", "short_code": "instr", "title": "Bristol: GC-MS-NICI", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2693, "uuid": "35a6424a034544a78857485e93c57e9c", "short_code": "acq", "title": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK", "abstract": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK " } }, { "ob_id": 911, "platform": { "ob_id": 2724, "uuid": "918132d826fb4777a2f6e3a20c9f3fd3", "short_code": "plat", "title": "Snow Hill", "abstract": "Snow Hill, Birmingham" }, "instrument": { "ob_id": 2668, "uuid": "0f042b80bebb4682bd89f8cff103afab", "short_code": "instr", "title": "Bristol: GC-MS-NICI", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2693, "uuid": "35a6424a034544a78857485e93c57e9c", "short_code": "acq", "title": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK", "abstract": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK " } }, { "ob_id": 912, "platform": { "ob_id": 2728, "uuid": "31c10532376d4e40a5a0f7dc5c9de4cb", "short_code": "plat", "title": "Spring Lane", "abstract": "Spring Lane, Birmingham" }, "instrument": { "ob_id": 2668, "uuid": "0f042b80bebb4682bd89f8cff103afab", "short_code": "instr", "title": "Bristol: GC-MS-NICI", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2693, "uuid": "35a6424a034544a78857485e93c57e9c", "short_code": "acq", "title": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK", "abstract": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK " } }, { "ob_id": 913, "platform": { "ob_id": 2732, "uuid": "bd1bb2e1b92b4f08b66229440fb01363", "short_code": "plat", "title": "Steelhouse Lane", "abstract": "Steelhouse Lane, Birmingham" }, "instrument": { "ob_id": 2668, "uuid": "0f042b80bebb4682bd89f8cff103afab", "short_code": "instr", "title": "Bristol: GC-MS-NICI", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2693, "uuid": "35a6424a034544a78857485e93c57e9c", "short_code": "acq", "title": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK", "abstract": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK " } }, { "ob_id": 914, "platform": { "ob_id": 2736, "uuid": "34e8773e1a13402aaaa21f5040f3f946", "short_code": "plat", "title": "Stockland Green School", "abstract": "Stockland Green School, Birmingham " }, "instrument": { "ob_id": 2668, "uuid": "0f042b80bebb4682bd89f8cff103afab", "short_code": "instr", "title": "Bristol: GC-MS-NICI", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2693, "uuid": "35a6424a034544a78857485e93c57e9c", "short_code": "acq", "title": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK", "abstract": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK " } }, { "ob_id": 915, "platform": { "ob_id": 2740, "uuid": "45f6260c11644f6883d56104681d1eed", "short_code": "plat", "title": "War End School", "abstract": "Ward End School, Birmingham" }, "instrument": { "ob_id": 2668, "uuid": "0f042b80bebb4682bd89f8cff103afab", "short_code": "instr", "title": "Bristol: GC-MS-NICI", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2693, "uuid": "35a6424a034544a78857485e93c57e9c", "short_code": "acq", "title": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK", "abstract": "GASPOL: Atmospheric perfluoromethylcyclohexane measurements, Birmingham, UK " } }, { "ob_id": 916, "platform": { "ob_id": 7813, "uuid": "8ee876e1ea644ed7a81d4e3536133fa0", "short_code": "plat", "title": "European Remote Sensing satellite 2 - ERS-2", "abstract": "ESA's two European Remote Sensing (ERS) satellites, ERS-1 and –2, were launched into the same orbit in 1991 and 1995 respectively. Their payloads included a synthetic aperture imaging radar, radar altimeter and instruments to measure ocean surface temperature and wind fields.\r\n\r\nERS-2 added an additional sensor for atmospheric ozone monitoring. The two satellites acquired a combined data set extending over two decades.\r\n\r\nThe ERS-2 satellite was retired on 05 September 2011." }, "instrument": { "ob_id": 2747, "uuid": "452137151c90431389e1177e79f4cbcb", "short_code": "instr", "title": "Global Ozone Monitoring Experiment (GOME)", "abstract": "Global Ozone Monitoring Experiment, a nadir-scanning ultraviolet and visible spectrometer for global monitoring of atmospheric Ozone, was launched on-board ERS-2 in April 1995. GOME delivers global observations of total ozone, nitrogen dioxide and related cloud information." }, "relatedTo": { "ob_id": 2749, "uuid": "8f94a3a46f61435e8c247dfe2b92c580", "short_code": "acq", "title": "Acquisition Process for: Data from Global Ozone Monitoring Experiment (GOME) at European Remote Sensing satellite 2 (ERS-2) for the European Space Agency (ESA)", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: Global Ozone Monitoring Experiment (GOME); PLATFORMS: European Remote Sensing satellite 2 (ERS-2); " } }, { "ob_id": 918, "platform": { "ob_id": 2758, "uuid": "91cadb854e0140a2be1a2db751757ebb", "short_code": "plat", "title": "ARA Beech B200T Super King Air aircraft", "abstract": "The Beech B200T Super King Air Aircraft operated by Airbourne Research Australia (ARA) is a pressurised twin turbo prop aircraft, capable of carrying a scientific payload of 900Kg to an altitude of 10Km." }, "instrument": { "ob_id": 440, "uuid": "0c6f4526b1694218be141139f1e57f8b", "short_code": "instr", "title": "FAAM/BAE systems or other aircraft: Flight log", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2763, "uuid": "db490412fc57402c9bfd0aa0468eb868", "short_code": "acq", "title": "Acquisition Process for: ARA Beech B200T Super King Air aircraft flight log for the CWVC EMERALD campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight log; PLATFORMS: ARA Beech B200T Super King Air aircraft;" } }, { "ob_id": 919, "platform": { "ob_id": 2758, "uuid": "91cadb854e0140a2be1a2db751757ebb", "short_code": "plat", "title": "ARA Beech B200T Super King Air aircraft", "abstract": "The Beech B200T Super King Air Aircraft operated by Airbourne Research Australia (ARA) is a pressurised twin turbo prop aircraft, capable of carrying a scientific payload of 900Kg to an altitude of 10Km." }, "instrument": { "ob_id": 444, "uuid": "d00e88f7f7a7413684342d867b7dfb36", "short_code": "instr", "title": "FAAM/BAE systems or other aircraft: Flight summary", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2766, "uuid": "2b99416f1c6f413495d2e601ff7b85d9", "short_code": "acq", "title": "Acquisition Process for: ARA Beech B200T Super King Air aircraft flight summary for the CWVC EMERALD Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: ARA Beech B200T Super King Air aircraft; " } }, { "ob_id": 920, "platform": { "ob_id": 2769, "uuid": "f0c042b708b045d68e6f814201e09e93", "short_code": "plat", "title": "ARA Grob G520T Egrett aircraft", "abstract": "The Grob Egrett T520 is a unique high altitude aircraft, capable of carrying a 500Kg scientific payload to 15Km. It is operated by Airbourne Research Australia (ARA)." }, "instrument": { "ob_id": 2770, "uuid": "723bb5e1edad4ad48f927759bdcf10cb", "short_code": "instr", "title": "University of Manchester/UFAM (Universities' Facilities for Atmospheric Measurements): Cloud Particle Imager (CPI) - formerly umist-cpi", "abstract": "The CPI can image and count particles in the size range of 15-2500um, with the images having a nominal 2.3um resolution. Image analysis and data processing software provided with the probe takes particle size information (including area and volume) and ice crystal habit classification from the images to produce histograms etc. The CPI is especially suitable for use in ice and mixed phase clouds which typically have relatively low (compared to water clouds) particle concentration of 1000/L. The CPI may be used in much higher particle concentrations, but under these conditions while particle spectra are reliable, absolute particle concentrations are not due to coincidence errors in the particle detection system. While designed for aircraft use, and able to operate at any aircraft speed and altitude, the CPI, with the use of a suitable aspiration device may also be used for ground based, or lab studies. The University of Manchester and UFAM (Universities' Facility for Atmospheric Measurements) operated this instrument." }, "relatedTo": { "ob_id": 2772, "uuid": "0242db3c94b84d9ca9216ba0d16dd7f4", "short_code": "acq", "title": "Acquisition Process for: ARA Grob G520T Egrett aircraft - Manchester Cloud Particle Imager data for the CWVC EMERALD campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: University of Manchester/UFAM (Universities' Facilities for Atmospheric Measurements): Cloud Particle Imager (CPI) - formerly umist-cpi; PLATFORMS: ARA Grob G520T Egrett aircraft; " } }, { "ob_id": 921, "platform": { "ob_id": 2769, "uuid": "f0c042b708b045d68e6f814201e09e93", "short_code": "plat", "title": "ARA Grob G520T Egrett aircraft", "abstract": "The Grob Egrett T520 is a unique high altitude aircraft, capable of carrying a 500Kg scientific payload to 15Km. It is operated by Airbourne Research Australia (ARA)." }, "instrument": { "ob_id": 2221, "uuid": "e8770973c20f4b9fb0217a619f929446", "short_code": "instr", "title": "Manchester: The Forward Scattering Spectrometer Probe (FSSP)", "abstract": "A forward scattering spectrometer probe (FSSP) is an optical particle counter, suitable for counting and sizing particles in the size range of 0.5 - 47 micron diameter. It essentially consists of a laser, various optics, a photo-detector module, and electronics to process the data. The UMIST FSSP is a PMS FSSP model 100 with the DMT SPP-100 rev-1 electronics upgrade, and is configured for ground based use." }, "relatedTo": { "ob_id": 2775, "uuid": "8217bb208fb84452b7285ecd14159855", "short_code": "acq", "title": "Acquisition Process for: ARA Grob G520T Egrett aircraft - Manchester Forward Scattering Spectroscopy Probe (FSSP) data for the CWVC EMERALD Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: Manchester: Forward Scattering Spectroscopy Probe (FSSP) - formerly umist-fssp; PLATFORMS: ARA Grob G520T Egrett aircraft; " } }, { "ob_id": 922, "platform": { "ob_id": 2769, "uuid": "f0c042b708b045d68e6f814201e09e93", "short_code": "plat", "title": "ARA Grob G520T Egrett aircraft", "abstract": "The Grob Egrett T520 is a unique high altitude aircraft, capable of carrying a 500Kg scientific payload to 15Km. It is operated by Airbourne Research Australia (ARA)." }, "instrument": { "ob_id": 2778, "uuid": "9deddcfabe86400f8754e516af180486", "short_code": "instr", "title": "Aberystwyth: Tunable Laser Diode (TDL) Spectrometer for water vapour", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2779, "uuid": "903ae6b067044813a86688fb7dd0f6ef", "short_code": "acq", "title": "Acquisition Process for: ARA Grob G520T Egrett aircraft - Aberystwyth Tunable Laser Diode (TDL) Spectrometer for water vapour data for the CWVC EMERALD Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: Aberystwyth: Tunable Laser Diode (TDL) Spectrometer for water vapour; PLATFORMS: ARA Grob G520T Egrett aircraft; " } }, { "ob_id": 923, "platform": { "ob_id": 2769, "uuid": "f0c042b708b045d68e6f814201e09e93", "short_code": "plat", "title": "ARA Grob G520T Egrett aircraft", "abstract": "The Grob Egrett T520 is a unique high altitude aircraft, capable of carrying a 500Kg scientific payload to 15Km. It is operated by Airbourne Research Australia (ARA)." }, "instrument": { "ob_id": 2782, "uuid": "a64d072a033644b6a0f029d1ed4d60c1", "short_code": "instr", "title": "DLR: Frost-point Hygrometer", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2783, "uuid": "a8331396c5d749b6b60338ccfe68fc4e", "short_code": "acq", "title": "Acquisition Process for: ARA Grob G520T Egrett aircraft - Frost-pint hygrometer data for the CWVC EMERALD campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: DLR: Frost-point Hygrometer; PLATFORMS: ARA Grob G520T Egrett aircraft; " } }, { "ob_id": 924, "platform": { "ob_id": 2769, "uuid": "f0c042b708b045d68e6f814201e09e93", "short_code": "plat", "title": "ARA Grob G520T Egrett aircraft", "abstract": "The Grob Egrett T520 is a unique high altitude aircraft, capable of carrying a 500Kg scientific payload to 15Km. It is operated by Airbourne Research Australia (ARA)." }, "instrument": { "ob_id": 2786, "uuid": "f46735acdf9d4bd49c2f84c957e36d19", "short_code": "instr", "title": "DLR: ozone monitor", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2787, "uuid": "293749f3ec7a43dd87297e167e4f9f7c", "short_code": "acq", "title": "Acquisition Process for: ARA Grob G520T Egrett aircraftn - DLR Ozone monitor data for the CWVC EMERALD campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: DLR: ozone monitor; PLATFORMS: ARA Grob G520T Egrett aircraft; " } }, { "ob_id": 925, "platform": { "ob_id": 2769, "uuid": "f0c042b708b045d68e6f814201e09e93", "short_code": "plat", "title": "ARA Grob G520T Egrett aircraft", "abstract": "The Grob Egrett T520 is a unique high altitude aircraft, capable of carrying a 500Kg scientific payload to 15Km. It is operated by Airbourne Research Australia (ARA)." }, "instrument": { "ob_id": 2790, "uuid": "465c134f3dab4b82acfa1240f437050f", "short_code": "instr", "title": "Imperial: Tropospheric Airborne Fourier transform Spectrometer (TAFTS)", "abstract": "The goal of the TAFTS instrument is to improve our understanding of the role of water vapour and cirrus clouds in the regulation of the Earth's climate. It can do this by taking direct measurements of the properties of these atmospheric constituents whilst being flown on an aircraft. It is operated by Imperial College London." }, "relatedTo": { "ob_id": 2791, "uuid": "fbdddc3d2b334dd5aec0cb29c089137a", "short_code": "acq", "title": "Acquisition Process for: ARA Grob G520T Egrett aircraft - Imperial College Tropospheric Airborne Fourier Transform Spectrometer (TAFTS) data for the CWVC-EMERALD campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: Imperial: Tropospheric Airborne Fourier transform Spectrometer (TAFTS); PLATFORMS: ARA Grob G520T Egrett aircraft; " } }, { "ob_id": 926, "platform": { "ob_id": 2769, "uuid": "f0c042b708b045d68e6f814201e09e93", "short_code": "plat", "title": "ARA Grob G520T Egrett aircraft", "abstract": "The Grob Egrett T520 is a unique high altitude aircraft, capable of carrying a 500Kg scientific payload to 15Km. It is operated by Airbourne Research Australia (ARA)." }, "instrument": { "ob_id": 440, "uuid": "0c6f4526b1694218be141139f1e57f8b", "short_code": "instr", "title": "FAAM/BAE systems or other aircraft: Flight log", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2794, "uuid": "11ba71c5e0634d86956fd6f1c6fe31f5", "short_code": "acq", "title": "Acquisition Process for: ARA Grob G520T Egrett aircraft flight log for the CWVC EMERALD campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight log; PLATFORMS: ARA Grob G520T Egrett aircraft; " } }, { "ob_id": 927, "platform": { "ob_id": 2769, "uuid": "f0c042b708b045d68e6f814201e09e93", "short_code": "plat", "title": "ARA Grob G520T Egrett aircraft", "abstract": "The Grob Egrett T520 is a unique high altitude aircraft, capable of carrying a 500Kg scientific payload to 15Km. It is operated by Airbourne Research Australia (ARA)." }, "instrument": { "ob_id": 444, "uuid": "d00e88f7f7a7413684342d867b7dfb36", "short_code": "instr", "title": "FAAM/BAE systems or other aircraft: Flight summary", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2797, "uuid": "d2edb51c454140fea706c85206380a81", "short_code": "acq", "title": "Acquisition Process for: ARA Grob G520T Egrett aircraft flight summary for the CWVC EMERALD campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: ARA Grob G520T Egrett aircraft;" } }, { "ob_id": 928, "platform": { "ob_id": 51, "uuid": "dda4596d5d374564acf8c79b7a119127", "short_code": "plat", "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE", "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis" }, "instrument": { "ob_id": 444, "uuid": "d00e88f7f7a7413684342d867b7dfb36", "short_code": "instr", "title": "FAAM/BAE systems or other aircraft: Flight summary", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2802, "uuid": "cf0f0a039e134544aac8e57438c53d96", "short_code": "acq", "title": "Acquisition Process for: Data from FAAM/BAE systems or other aircraft: Flight summary at FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE for the Continuum Absorption in the Visible and Infrared and its Atmospheric Relevance (CAVIAR) Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE; " } }, { "ob_id": 929, "platform": { "ob_id": 51, "uuid": "dda4596d5d374564acf8c79b7a119127", "short_code": "plat", "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE", "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis" }, "instrument": { "ob_id": 361, "uuid": "03ef7231f980496b80ae41f47dacae44", "short_code": "instr", "title": "FAAM/BAE systems: De-iced (Rosemount 102BL) and non de-iced (Rosemount 102AL) temperature sensors", "abstract": "FAAM core instruments measuring true air temperature (in K) by using platinum resistance thermometers (currently, possibility of changing to thermistors in future) in de-iced and non-deiced housings. \r\n\r\nThe true air temperature is calculated based on the indicated temperature measured by two Rosemount type 102 probes (as well as the static and dynamic pressure RVSM measurements). Both sensors employ similar inlets to draw flow across a sensor (either a platinum PRT or glass bead thermistor) using inlets that have been designed to minimise water and particle ingress, as well as minimising interaction of the air with the inlet walls. \r\n\r\nThe deiced sensor contains a heater operated by the flight manager when icing is suspected (a correction is automatically applied to data during these periods). \r\n\r\nThe specific type of sensor used dictates the response time, for details see FAAM document FAAM013001A.\r\n\r\nThe data frequency is measured in 32 Hz. This frequency can be found in the full 32Hz core data file, or as 1 Hz in 1Hz data file. Parameters in the data files are: TAT_DI_R (True air temperature from the Rosemount deiced temperature sensor), TAT_ND_R (True air temperature from the Rosemount non-deiced temperature sensor)." }, "relatedTo": { "ob_id": 2802, "uuid": "cf0f0a039e134544aac8e57438c53d96", "short_code": "acq", "title": "Acquisition Process for: Data from FAAM/BAE systems or other aircraft: Flight summary at FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE for the Continuum Absorption in the Visible and Infrared and its Atmospheric Relevance (CAVIAR) Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE; " } }, { "ob_id": 930, "platform": { "ob_id": 51, "uuid": "dda4596d5d374564acf8c79b7a119127", "short_code": "plat", "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE", "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis" }, "instrument": { "ob_id": 381, "uuid": "d388a992fe4e40a6a2fb17041726a3f9", "short_code": "instr", "title": "FAAM/BAE systems: Liquid Water Content Probe (Johnson-Williams)", "abstract": "FAAM Core instrument measuring concentration of liquid water in clouds using a heated wire resistance bridge." }, "relatedTo": { "ob_id": 2802, "uuid": "cf0f0a039e134544aac8e57438c53d96", "short_code": "acq", "title": "Acquisition Process for: Data from FAAM/BAE systems or other aircraft: Flight summary at FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE for the Continuum Absorption in the Visible and Infrared and its Atmospheric Relevance (CAVIAR) Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE; " } }, { "ob_id": 931, "platform": { "ob_id": 51, "uuid": "dda4596d5d374564acf8c79b7a119127", "short_code": "plat", "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE", "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis" }, "instrument": { "ob_id": 377, "uuid": "3d8e7e994a2e4d11aa05f99847b8c044", "short_code": "instr", "title": "FAAM/BAE systems: Hygrometer (General Eastern)", "abstract": "FAAM Core instrument measuring dew point or frost point by using a chilled mirror hygrometer. \r\n\r\nThe General Eastern 1011B is a chilled mirror hygrometer for use in cloud-free air - it optically monitors the temperature of a mirror when liquid water or ice begins to condense. Air is drawn through the instrument through a passive inlet located 6m aft of the nose and 4 cm from the skin, which is within the boundary layer. \r\n\r\nPerformance of the instrument depends on temperature; it is subject to oscillations at low frost points.\r\n\r\nThe data frequency is measurend in 4Hz. This 4Hz frequency can be found in the full core datafile, or as 1Hz in the 1Hz data file.\r\n\r\nParameters in the data files are: TDEW_GE (Dew point from the General Eastern instrument, K)" }, "relatedTo": { "ob_id": 2802, "uuid": "cf0f0a039e134544aac8e57438c53d96", "short_code": "acq", "title": "Acquisition Process for: Data from FAAM/BAE systems or other aircraft: Flight summary at FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE for the Continuum Absorption in the Visible and Infrared and its Atmospheric Relevance (CAVIAR) Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE; " } }, { "ob_id": 932, "platform": { "ob_id": 51, "uuid": "dda4596d5d374564acf8c79b7a119127", "short_code": "plat", "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE", "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis" }, "instrument": { "ob_id": 353, "uuid": "bcecfca8cfbb48108200c6ffb445d4b1", "short_code": "instr", "title": "FAAM/BAE systems: Broad band (pyranometers and pyrgeometers) Radiometers (BBR)", "abstract": "FAAM Core instrument measuring 0.3 - 3 micrometres, 0.7 - 3 micrometres and 4 - 50 micrometres hemispheric irradiance." }, "relatedTo": { "ob_id": 2802, "uuid": "cf0f0a039e134544aac8e57438c53d96", "short_code": "acq", "title": "Acquisition Process for: Data from FAAM/BAE systems or other aircraft: Flight summary at FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE for the Continuum Absorption in the Visible and Infrared and its Atmospheric Relevance (CAVIAR) Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE; " } }, { "ob_id": 933, "platform": { "ob_id": 51, "uuid": "dda4596d5d374564acf8c79b7a119127", "short_code": "plat", "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE", "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis" }, "instrument": { "ob_id": 385, "uuid": "ea93c53876e24514b3ccf798671d43c5", "short_code": "instr", "title": "FAAM/BAE systems: Liquid and total water content probe (Nevzorov)", "abstract": "The Nevzorov probe, manufactured by Sky Physics Technology Inc., is a multi-element hot-wire probe for the simultaneous measurement of condensed liquid water content (LWC) and total condensed water content (TWC). Ice water content (IWC) can be calculated, being the difference between these two quantities. The detection elements are mounted on a vane that self-aligns with the airflow. The temperature of the elements is held constant and the water content calculated from first principles based on the measured power through each element. Two types of vanes have been used, with the newer types, identified as VANETYPE 1T2L1R in the flight constants, having two LWC sense elements, one reference element and one TWC cone. These have been used since late 2016, The old style have a single LWC element and separate references for the LWC and TWC elements. The TWC element is the 60° deep-cone type.\r\n\r\nThe instrument is mounted to the FAAM Bae-146, close to the nose on the starboard side of the fuselage." }, "relatedTo": { "ob_id": 2802, "uuid": "cf0f0a039e134544aac8e57438c53d96", "short_code": "acq", "title": "Acquisition Process for: Data from FAAM/BAE systems or other aircraft: Flight summary at FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE for the Continuum Absorption in the Visible and Infrared and its Atmospheric Relevance (CAVIAR) Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE; " } }, { "ob_id": 934, "platform": { "ob_id": 51, "uuid": "dda4596d5d374564acf8c79b7a119127", "short_code": "plat", "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE", "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis" }, "instrument": { "ob_id": 345, "uuid": "b986f84bfb1e4f959d97f244af5cb552", "short_code": "instr", "title": "FAAM/BAE systems: Reduced Vertical Separation Minimum system (used on turbulence probe)", "abstract": "FAAM core instrument measuring static and pitot-static pressures, pressure altitude and Indicated Air Speed." }, "relatedTo": { "ob_id": 2802, "uuid": "cf0f0a039e134544aac8e57438c53d96", "short_code": "acq", "title": "Acquisition Process for: Data from FAAM/BAE systems or other aircraft: Flight summary at FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE for the Continuum Absorption in the Visible and Infrared and its Atmospheric Relevance (CAVIAR) Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE; " } }, { "ob_id": 935, "platform": { "ob_id": 51, "uuid": "dda4596d5d374564acf8c79b7a119127", "short_code": "plat", "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE", "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis" }, "instrument": { "ob_id": 341, "uuid": "56fb1a297d764925acc0553cbdb5810e", "short_code": "instr", "title": "FAAM/BAE systems: Radar Altimeter", "abstract": "FAAM Core instrument measuring altitude." }, "relatedTo": { "ob_id": 2802, "uuid": "cf0f0a039e134544aac8e57438c53d96", "short_code": "acq", "title": "Acquisition Process for: Data from FAAM/BAE systems or other aircraft: Flight summary at FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE for the Continuum Absorption in the Visible and Infrared and its Atmospheric Relevance (CAVIAR) Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE; " } }, { "ob_id": 936, "platform": { "ob_id": 51, "uuid": "dda4596d5d374564acf8c79b7a119127", "short_code": "plat", "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE", "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis" }, "instrument": { "ob_id": 405, "uuid": "d52ce769079e44d789fc5bf9b18ca78f", "short_code": "instr", "title": "FAAM/BAE systems: TECO 49 UV photometric ozone instrument", "abstract": "FAAM Core instrument measuring ozone on core chemistry rack." }, "relatedTo": { "ob_id": 2802, "uuid": "cf0f0a039e134544aac8e57438c53d96", "short_code": "acq", "title": "Acquisition Process for: Data from FAAM/BAE systems or other aircraft: Flight summary at FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE for the Continuum Absorption in the Visible and Infrared and its Atmospheric Relevance (CAVIAR) Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE; " } }, { "ob_id": 937, "platform": { "ob_id": 51, "uuid": "dda4596d5d374564acf8c79b7a119127", "short_code": "plat", "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE", "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis" }, "instrument": { "ob_id": 389, "uuid": "7ef52ea76eca4989906c27df52e683ab", "short_code": "instr", "title": "FAAM/BAE systems: Particle Soot Absorption Photometer (PSAP aka SOOTY)", "abstract": "FAAM Core instrument measuring black carbon." }, "relatedTo": { "ob_id": 2802, "uuid": "cf0f0a039e134544aac8e57438c53d96", "short_code": "acq", "title": "Acquisition Process for: Data from FAAM/BAE systems or other aircraft: Flight summary at FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE for the Continuum Absorption in the Visible and Infrared and its Atmospheric Relevance (CAVIAR) Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE; " } }, { "ob_id": 938, "platform": { "ob_id": 51, "uuid": "dda4596d5d374564acf8c79b7a119127", "short_code": "plat", "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE", "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis" }, "instrument": { "ob_id": 2832, "uuid": "c2b7b1ce10cf48a19e0ce0662c29e5ed", "short_code": "instr", "title": "FAAM/BAE systems: Upward, Downward, Forward and Rear view cameras", "abstract": "FAAM core instruments producing video recordings." }, "relatedTo": { "ob_id": 2802, "uuid": "cf0f0a039e134544aac8e57438c53d96", "short_code": "acq", "title": "Acquisition Process for: Data from FAAM/BAE systems or other aircraft: Flight summary at FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE for the Continuum Absorption in the Visible and Infrared and its Atmospheric Relevance (CAVIAR) Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE; " } }, { "ob_id": 939, "platform": { "ob_id": 51, "uuid": "dda4596d5d374564acf8c79b7a119127", "short_code": "plat", "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE", "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis" }, "instrument": { "ob_id": 365, "uuid": "fef265d766a846e0aa7e43bbd617ef93", "short_code": "instr", "title": "FAAM/BAE systems: Downward facing radiometer (Heimann)", "abstract": "FAAM Core instrument measuring brightness temperature (8-14 micrometres)" }, "relatedTo": { "ob_id": 2802, "uuid": "cf0f0a039e134544aac8e57438c53d96", "short_code": "acq", "title": "Acquisition Process for: Data from FAAM/BAE systems or other aircraft: Flight summary at FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE for the Continuum Absorption in the Visible and Infrared and its Atmospheric Relevance (CAVIAR) Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE; " } }, { "ob_id": 940, "platform": { "ob_id": 51, "uuid": "dda4596d5d374564acf8c79b7a119127", "short_code": "plat", "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE", "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis" }, "instrument": { "ob_id": 409, "uuid": "6c06252ae0db4739b320632e56d08c44", "short_code": "instr", "title": "FAAM/BAE systems: Total Water Content (TWC) probe", "abstract": "FAAM core instrument measuring total water content." }, "relatedTo": { "ob_id": 2802, "uuid": "cf0f0a039e134544aac8e57438c53d96", "short_code": "acq", "title": "Acquisition Process for: Data from FAAM/BAE systems or other aircraft: Flight summary at FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE for the Continuum Absorption in the Visible and Infrared and its Atmospheric Relevance (CAVIAR) Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE; " } }, { "ob_id": 941, "platform": { "ob_id": 51, "uuid": "dda4596d5d374564acf8c79b7a119127", "short_code": "plat", "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE", "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis" }, "instrument": { "ob_id": 393, "uuid": "40439dcb19454eb6abba77f23361d618", "short_code": "instr", "title": "FAAM/BAE systems: Patch (ex MRF) - GPS", "abstract": "FAAM Core instrument measuring aircraft position, velocity and time standard." }, "relatedTo": { "ob_id": 2802, "uuid": "cf0f0a039e134544aac8e57438c53d96", "short_code": "acq", "title": "Acquisition Process for: Data from FAAM/BAE systems or other aircraft: Flight summary at FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE for the Continuum Absorption in the Visible and Infrared and its Atmospheric Relevance (CAVIAR) Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE; " } }, { "ob_id": 942, "platform": { "ob_id": 51, "uuid": "dda4596d5d374564acf8c79b7a119127", "short_code": "plat", "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE", "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis" }, "instrument": { "ob_id": 373, "uuid": "ea9ee7f7e42044558083db96c7fadc5f", "short_code": "instr", "title": "FAAM/BAE systems: Honeywell H423 laser Inertial Navigation Unit (INU)", "abstract": "FAAM Core instrument measuring aircraft velocity components, Attitude, Attitude Rates, Ground Speed and Drift angle. Position and Acceleration." }, "relatedTo": { "ob_id": 2802, "uuid": "cf0f0a039e134544aac8e57438c53d96", "short_code": "acq", "title": "Acquisition Process for: Data from FAAM/BAE systems or other aircraft: Flight summary at FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE for the Continuum Absorption in the Visible and Infrared and its Atmospheric Relevance (CAVIAR) Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE; " } }, { "ob_id": 943, "platform": { "ob_id": 51, "uuid": "dda4596d5d374564acf8c79b7a119127", "short_code": "plat", "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE", "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis" }, "instrument": { "ob_id": 413, "uuid": "6604e20675404abdb77bcef9c0f019cd", "short_code": "instr", "title": "FAAM/BAE systems: TSI 3025A Condensation Particle Counter (CPC) - formerly known as CNC.", "abstract": "FAAM Core instrument measuring condensation particles." }, "relatedTo": { "ob_id": 2802, "uuid": "cf0f0a039e134544aac8e57438c53d96", "short_code": "acq", "title": "Acquisition Process for: Data from FAAM/BAE systems or other aircraft: Flight summary at FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE for the Continuum Absorption in the Visible and Infrared and its Atmospheric Relevance (CAVIAR) Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE; " } }, { "ob_id": 944, "platform": { "ob_id": 51, "uuid": "dda4596d5d374564acf8c79b7a119127", "short_code": "plat", "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE", "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis" }, "instrument": { "ob_id": 397, "uuid": "b55a2cdbc07f4796bac59be968bf0e40", "short_code": "instr", "title": "FAAM/BAE systems: Rosemount pair inlet nephelometer", "abstract": "FAAM Core instrument measuring total scattering and hemispheric backscattering`coefficient at three visible wavelengths (450, 550 and 700nm)." }, "relatedTo": { "ob_id": 2802, "uuid": "cf0f0a039e134544aac8e57438c53d96", "short_code": "acq", "title": "Acquisition Process for: Data from FAAM/BAE systems or other aircraft: Flight summary at FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE for the Continuum Absorption in the Visible and Infrared and its Atmospheric Relevance (CAVIAR) Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE; " } }, { "ob_id": 945, "platform": { "ob_id": 51, "uuid": "dda4596d5d374564acf8c79b7a119127", "short_code": "plat", "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE", "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis" }, "instrument": { "ob_id": 508, "uuid": "4ed581eea3e242048b2619ffcc131b3b", "short_code": "instr", "title": "FAAM/BAE systems: Aerolaser AL5002 Carbon Monoxide instrument on Core Chemistry rack (CO)", "abstract": "FAAM Core instrument measuring Carbon monoxide (CO). Aerolaser AL5002 Used pre May 2011\r\n\r\nAL 5002 VUV Fast Fluorescence CO Analyser\r\nThe AL5002 (s/n 127) is a commercial gas analyser produced by Aerolaser GmbH.\r\nThe analyser employs the measurement of the fluorescence of CO when exposed to UV light at a wavelength of 150nm, which is proportional to the concentration of CO.\r\n\r\nAmbient air is drawn into the cabin from the starboard air sample pipe (port #11) along several meters of 1/8\" od PFA line at a flowrate of approximately 180 ml/min, by means of a vacuum pump (Vaccubrand model MV2) . The air is then dried using a Perma Pure Nafion gas dryer (model MD-110-24P) prior to the detector. The fluorescence cell is maintained at a low pressure, typically around 7.5 Torr, and constant temperature, typically 40°C.\r\nThe monochromator optical filters, providing the collimated 150nm source from a plasma lamp, are flushed with mass flow controlled and filtered (via Entegris GateKeeper N2 purifier) high-purity (N6.0) nitrogen to prevent ingress of highly absorbing molecular oxygen or/and contaminating species such as CO. The plasma lamp itself requires a constant supply of 0.25% CO2/AR (N6.0), also mass flow controlled, in order to produce emissions of the required intensity.\r\n\r\nData\r\nThe AL5002 exhibits a very fast response to changes in ambient CO concentrations. The manufacturer quotes 0.1s for a 10-90% response time (albeit with a 2s signal delay). FAAM data are output at 1 Hz from the analyser and presented similarly at 1hz in the Core data.\r\nThe residence time of sample in the inlet line is not negligible. Calculation of the flow rates and length of tubing in the sample inlet suggest a residence time of over 10 seconds. CO data (eg icon CO Time Lag (21.77 kB 2009-12-14 13:22:02) certainly show a time lag in flight, typically of 15 seconds, the measured lag is additionally associated with a small amount of smoothing in the data. FAAM are working to correct this.\r\nOver the course of a flight, the CO analyser sensitivity (Hz/ppbv) and background (Hz) both tend to change (where Hz is the analyser's photomultiplier raw photon count rate, per sec). FAAM's standard practice is to calibrate these quantities periodically through a flight by means of an on-board CO/Air standard and Sofnocat 514 CO scrubber (internal to analyser) . These calibrations take around 150s, and are usually performed where flight levels change significantly. No CO measurement data are available during these times and as such the precise location of calibrations is usually a matter for consultation with the Mission Scientist of the day. Instrument calibrations are automatically applied to the data as they are performed; unfortunately this can result in apparent step changes either side of a calibration, where the sensitivity/background has changed significantly. FAAM are seeking to improve this method.\r\nThe analogue output from the instrument is logged by the aircraft data recording system and scaled accordingly to produce a concentration measurement (ppbv).\r\nThe AL5002 is operated throughout the range 0-2000 ppbv, and its linearity has been demonstrated to 100,000 ppbv (see Publications). The system is therefore calibrated at nominally 500 ppbv, above the level of typical ambient measurements in the free troposphere.\r\nThe manufacturer estimates the instrument precision to be ±1.5 ppbv at 100 ppbv measured CO, and a lowest detection limit of 3 ppbv for 1 Hz data has been documented (see Publications). A 1σ precision of ±2.8 ppbv can be derived from Poisson Statistics of the mean background count rate (~34000 Hz) and nominal sensitivity of 65 Hz/ppbv.\r\nFAAM on-board CO/Air calibration standards are traceable to a NOAA-GMD / WMO 2000 scale CO/Air standard, and are compared several times a year. As a result, overall measurement uncertainties for the FAAM AL5002 CO measurements are estimated to be around ±5%.\r\n\r\nPublications\r\nThe principle and operation of the AL5002 instrument was documented in the following journal paper:\r\nAn improved fast-response vacuum-UV resonance fluorescence CO instrument, Gerbig et al.\r\nJOURNAL OF GEOPHYSICAL RESEARCH, VOL. 104, NO. D1, PAGES 1699-1704, JANUARY 20, 1999" }, "relatedTo": { "ob_id": 2802, "uuid": "cf0f0a039e134544aac8e57438c53d96", "short_code": "acq", "title": "Acquisition Process for: Data from FAAM/BAE systems or other aircraft: Flight summary at FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE for the Continuum Absorption in the Visible and Infrared and its Atmospheric Relevance (CAVIAR) Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE; " } }, { "ob_id": 946, "platform": { "ob_id": 51, "uuid": "dda4596d5d374564acf8c79b7a119127", "short_code": "plat", "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE", "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis" }, "instrument": { "ob_id": 448, "uuid": "a7e69cf336ab4cd985bb4a03508c834d", "short_code": "instr", "title": "Met Office: Airborne Research Interferometer Evaluation System (ARIES)", "abstract": "ARIES is a Fourier transform spectrometer based on the Bomem MB100 interferometer, modified by ABB Bomem (Canada) for airborne use, with Met Office designed pointing optics, external black bodies and control electronics. Although designed, and primarily used, for airborne measurements ARIES can also be used for ground based work away from the aircraft." }, "relatedTo": { "ob_id": 2802, "uuid": "cf0f0a039e134544aac8e57438c53d96", "short_code": "acq", "title": "Acquisition Process for: Data from FAAM/BAE systems or other aircraft: Flight summary at FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE for the Continuum Absorption in the Visible and Infrared and its Atmospheric Relevance (CAVIAR) Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE; " } }, { "ob_id": 947, "platform": { "ob_id": 51, "uuid": "dda4596d5d374564acf8c79b7a119127", "short_code": "plat", "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE", "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis" }, "instrument": { "ob_id": 2860, "uuid": "0f77c835f67641948e3bd3aaa7a38b63", "short_code": "instr", "title": "Met Office: Dual-frequency Extension to In-flight Microwave Observing System (DEIMOS)", "abstract": "Deimos is an along-track scanning radiometer with dual polarised channels at 23.8 and 50.1 GHz. Deimos is constrained to view in five directions either upward or downward depending on how it is fitted to the aircraft." }, "relatedTo": { "ob_id": 2802, "uuid": "cf0f0a039e134544aac8e57438c53d96", "short_code": "acq", "title": "Acquisition Process for: Data from FAAM/BAE systems or other aircraft: Flight summary at FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE for the Continuum Absorption in the Visible and Infrared and its Atmospheric Relevance (CAVIAR) Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE; " } }, { "ob_id": 948, "platform": { "ob_id": 51, "uuid": "dda4596d5d374564acf8c79b7a119127", "short_code": "plat", "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE", "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis" }, "instrument": { "ob_id": 2864, "uuid": "b0a893d0b4ab4f55951aa53b2ff82f11", "short_code": "instr", "title": "Met Office: Microwave Airborne Radiometer Scanning System (MARSS)", "abstract": "MARSS (Microwave Airborne Radiometer Scanning System) is an along-track scanning, total power microwave radiometer which measures in five channels, two window channels at 89 and 157 GHz and three channels centred on the water vapour absorption line at 183.31 GHz." }, "relatedTo": { "ob_id": 2802, "uuid": "cf0f0a039e134544aac8e57438c53d96", "short_code": "acq", "title": "Acquisition Process for: Data from FAAM/BAE systems or other aircraft: Flight summary at FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE for the Continuum Absorption in the Visible and Infrared and its Atmospheric Relevance (CAVIAR) Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: FAAM/BAE systems or other aircraft: Flight summary; PLATFORMS: FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE; " } }, { "ob_id": 949, "platform": { "ob_id": 2874, "uuid": "52cff062159f4224a14205b3ac3a4419", "short_code": "plat", "title": "University of Surrey - Environmental Flow Research Centre (EnFlo)", "abstract": "EnFlo, the Environmental Flow Research Centre, was established in 1993 as a focus for UK research activities based on laboratory scale simulation of atmospheric flow and pollutant dispersion. Two major facilities, a wind tunnel and a towing tank, were donated by National Power plc to the University, directly enabling the establishment of EnFlo." }, "instrument": { "ob_id": 2875, "uuid": "61e817263d59492f8a28697e9c9077c7", "short_code": "instr", "title": "120-degree x-wire anemometer in wind tunnel", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2876, "uuid": "0156e704888f4cf3927f61cbbb617ca7", "short_code": "acq", "title": "Acquisition Process for: Surrey University - 120deg x-wire anemometer in wind tunnel data for the URGENT URBMET campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: 120-degree x-wire anemometer in wind tunnel; PLATFORMS: University of Surrey - Environmental Flow Research Centre (EnFlo); " } }, { "ob_id": 950, "platform": { "ob_id": 1432, "uuid": "6294edf0862a44f4831259300a6aee76", "short_code": "plat", "title": "Salford, UK", "abstract": "Platform.abstract: DETAILS NEEDED" }, "instrument": { "ob_id": 1433, "uuid": "46742014e0d04d798cf281be1b69c68f", "short_code": "instr", "title": "Salford/UFAM: Doppler Lidar", "abstract": "This is a 10.6 um Doppler Lidar system for atmospheric measurements from a minimum range of 500 m-700 m up to a maximum of 9 km. This is a UFAM instrument operated by the University of Salford, UK. The instrument is a 1.55 μm eye-safe (Class 1M) scanning micro pulsed LiDAR providing profiles of aerosol backscatter coefficient (β) in units of m-1 sr-1 and radial velocity in ms-1 at user specified azimuth and elevation angles. This system has additional Doppler and depolarisation channels. A three point scanning algorithm is supplied for automated wind profile measurement: profiles of wind speed and direction can be obtained at a minimum of once every two minutes. Signal analysis, data retrievals, and data storage are performed by a PC system on-board the instrument. Users can operate the instrument remotely via the internet (not wireless) that is: users can program custom scan patterns and monitor performance. The operational software allows the user to test out head positions for a scan, level the instrument, and schedule how often the LiDAR comes out of its default operation (vertical observation or STARE Mode) to perform an operation. An internal GPS provides accurate system timing and instrument position while the extended temperature facility provides an operational temperature range of -20°C to 40°C: at temperature > 40°C this the system will automatically shutdown.\r\n\r\nThis instrument was subsequently converted into the instrument now operated by NCAS AMF as their Halo Doppler Lidar no 1." }, "relatedTo": { "ob_id": 2882, "uuid": "da4b2abda075480caba960458ba7f731", "short_code": "acq", "title": "Acquisition Process for: Salford University - Doppler Lidar data for the URGENT URBMET campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: Salford/UFAM: Doppler Lidar; PLATFORMS: Salford, UK; " } }, { "ob_id": 951, "platform": { "ob_id": 1523, "uuid": "97bdfb9741f441eebfb16440ebbb0f92", "short_code": "plat", "title": "Jungfraujoch Research Station", "abstract": "The high altitude research station Jungfraujoch (7° 59' E, 46° 32' N, 3580 m a.s.l.) is situated on a mountain saddle in the central Swiss Alps between the Jungfrau (4158 m a.s.l.) in the West and the Moench (4099 m a.s.l.) in the East. The International Foundation High Altitude Research Stations Jungfraujoch and Gornergrat (HFSJG) runs the research station and provides the infrastructure and support for scientific research. Due to its unique place, the year-round accessibility, and the excellent infrastructure, the Jungfraujoch research station is well suited for long-term ground-based monitoring of trace gas concentrations trends in the free troposphere. Due to its location in central Europe and its proximity to anthropogenic greenhouse gas source regions it is also an appropriate study site for European regional source allocations during pollution events. The research activities of EMPA at the Jungfraujoch are conducted within the scope of the Swiss National Air Pollution Monitoring Network (NABEL) funded by the Swiss Federal Office for the Environment (FOEN) and the Global Atmosphere Watch Program (GAW) of the World Meteorological Organization (WMO). The measurement programme at Jungfraujoch includes continuous in-situ analyses of ozone (O3), carbon monoxide (CO), nitrogen monoxide (NO), nitrogen dioxide (NO2), and the sum of nitrogen oxides (NOy). In addition, an extended set of halocarbons and a selection of VOCs (alkanes, aromatics) are measured with a time resolution of four hours since 2000 as a part of SOGE. Daily samples are taken for determination of gaseous SO2 and for particulate sulphur. The concentrations of total suspended particles are continuously observed as well as measured as 48-hour bulk samples. Measurements of methane, nitrous oxide and sulphur hexafluoride were commenced in February 2005 funded by the FOEN. Therefore, the whole set of non-CO2 greenhouse gases is now continuously monitored at the Jungfraujoch." }, "instrument": { "ob_id": 159, "uuid": "618eb937456043ae8823f5a12f5c0c44", "short_code": "instr", "title": "Leicester: PEroxy Radical Chemical Amplification (PERCA) technique", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2917, "uuid": "233ed31cd3ec444292182733deda0932", "short_code": "acq", "title": "Acquisition Process for: ACSOE OXICOA FREETEX-96: Ozone and Radical Chemistry Data from Jungfraujoch High Alpine Research Station", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: Leicester: PEroxy Radical Chemical Amplification (PERCA) technique, Leicester: filter radiometer j(NO2), Automatic Weather Station (AWS), Leicester: Spectral Radiometer j(O1D), EMPA: UV absorption TEI49C, EMPA: ND-IR Horiba ARMA 360; PLATFORMS: Jungfraujoch, Switzerland; " } }, { "ob_id": 952, "platform": { "ob_id": 1523, "uuid": "97bdfb9741f441eebfb16440ebbb0f92", "short_code": "plat", "title": "Jungfraujoch Research Station", "abstract": "The high altitude research station Jungfraujoch (7° 59' E, 46° 32' N, 3580 m a.s.l.) is situated on a mountain saddle in the central Swiss Alps between the Jungfrau (4158 m a.s.l.) in the West and the Moench (4099 m a.s.l.) in the East. The International Foundation High Altitude Research Stations Jungfraujoch and Gornergrat (HFSJG) runs the research station and provides the infrastructure and support for scientific research. Due to its unique place, the year-round accessibility, and the excellent infrastructure, the Jungfraujoch research station is well suited for long-term ground-based monitoring of trace gas concentrations trends in the free troposphere. Due to its location in central Europe and its proximity to anthropogenic greenhouse gas source regions it is also an appropriate study site for European regional source allocations during pollution events. The research activities of EMPA at the Jungfraujoch are conducted within the scope of the Swiss National Air Pollution Monitoring Network (NABEL) funded by the Swiss Federal Office for the Environment (FOEN) and the Global Atmosphere Watch Program (GAW) of the World Meteorological Organization (WMO). The measurement programme at Jungfraujoch includes continuous in-situ analyses of ozone (O3), carbon monoxide (CO), nitrogen monoxide (NO), nitrogen dioxide (NO2), and the sum of nitrogen oxides (NOy). In addition, an extended set of halocarbons and a selection of VOCs (alkanes, aromatics) are measured with a time resolution of four hours since 2000 as a part of SOGE. Daily samples are taken for determination of gaseous SO2 and for particulate sulphur. The concentrations of total suspended particles are continuously observed as well as measured as 48-hour bulk samples. Measurements of methane, nitrous oxide and sulphur hexafluoride were commenced in February 2005 funded by the FOEN. Therefore, the whole set of non-CO2 greenhouse gases is now continuously monitored at the Jungfraujoch." }, "instrument": { "ob_id": 2914, "uuid": "6a3e02251e7048c88507fc3dfeeb3c13", "short_code": "instr", "title": "Leicester: filter radiometer j(NO2)", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2917, "uuid": "233ed31cd3ec444292182733deda0932", "short_code": "acq", "title": "Acquisition Process for: ACSOE OXICOA FREETEX-96: Ozone and Radical Chemistry Data from Jungfraujoch High Alpine Research Station", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: Leicester: PEroxy Radical Chemical Amplification (PERCA) technique, Leicester: filter radiometer j(NO2), Automatic Weather Station (AWS), Leicester: Spectral Radiometer j(O1D), EMPA: UV absorption TEI49C, EMPA: ND-IR Horiba ARMA 360; PLATFORMS: Jungfraujoch, Switzerland; " } }, { "ob_id": 953, "platform": { "ob_id": 1523, "uuid": "97bdfb9741f441eebfb16440ebbb0f92", "short_code": "plat", "title": "Jungfraujoch Research Station", "abstract": "The high altitude research station Jungfraujoch (7° 59' E, 46° 32' N, 3580 m a.s.l.) is situated on a mountain saddle in the central Swiss Alps between the Jungfrau (4158 m a.s.l.) in the West and the Moench (4099 m a.s.l.) in the East. The International Foundation High Altitude Research Stations Jungfraujoch and Gornergrat (HFSJG) runs the research station and provides the infrastructure and support for scientific research. Due to its unique place, the year-round accessibility, and the excellent infrastructure, the Jungfraujoch research station is well suited for long-term ground-based monitoring of trace gas concentrations trends in the free troposphere. Due to its location in central Europe and its proximity to anthropogenic greenhouse gas source regions it is also an appropriate study site for European regional source allocations during pollution events. The research activities of EMPA at the Jungfraujoch are conducted within the scope of the Swiss National Air Pollution Monitoring Network (NABEL) funded by the Swiss Federal Office for the Environment (FOEN) and the Global Atmosphere Watch Program (GAW) of the World Meteorological Organization (WMO). The measurement programme at Jungfraujoch includes continuous in-situ analyses of ozone (O3), carbon monoxide (CO), nitrogen monoxide (NO), nitrogen dioxide (NO2), and the sum of nitrogen oxides (NOy). In addition, an extended set of halocarbons and a selection of VOCs (alkanes, aromatics) are measured with a time resolution of four hours since 2000 as a part of SOGE. Daily samples are taken for determination of gaseous SO2 and for particulate sulphur. The concentrations of total suspended particles are continuously observed as well as measured as 48-hour bulk samples. Measurements of methane, nitrous oxide and sulphur hexafluoride were commenced in February 2005 funded by the FOEN. Therefore, the whole set of non-CO2 greenhouse gases is now continuously monitored at the Jungfraujoch." }, "instrument": { "ob_id": 12737, "uuid": "fcf0cb5bcdc4426e856ef446ce6db43d", "short_code": "instr", "title": "EMPA: Automatic Weather Station", "abstract": "AWS deployed in Jungfraujoch, Switzerland." }, "relatedTo": { "ob_id": 2917, "uuid": "233ed31cd3ec444292182733deda0932", "short_code": "acq", "title": "Acquisition Process for: ACSOE OXICOA FREETEX-96: Ozone and Radical Chemistry Data from Jungfraujoch High Alpine Research Station", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: Leicester: PEroxy Radical Chemical Amplification (PERCA) technique, Leicester: filter radiometer j(NO2), Automatic Weather Station (AWS), Leicester: Spectral Radiometer j(O1D), EMPA: UV absorption TEI49C, EMPA: ND-IR Horiba ARMA 360; PLATFORMS: Jungfraujoch, Switzerland; " } }, { "ob_id": 954, "platform": { "ob_id": 1523, "uuid": "97bdfb9741f441eebfb16440ebbb0f92", "short_code": "plat", "title": "Jungfraujoch Research Station", "abstract": "The high altitude research station Jungfraujoch (7° 59' E, 46° 32' N, 3580 m a.s.l.) is situated on a mountain saddle in the central Swiss Alps between the Jungfrau (4158 m a.s.l.) in the West and the Moench (4099 m a.s.l.) in the East. The International Foundation High Altitude Research Stations Jungfraujoch and Gornergrat (HFSJG) runs the research station and provides the infrastructure and support for scientific research. Due to its unique place, the year-round accessibility, and the excellent infrastructure, the Jungfraujoch research station is well suited for long-term ground-based monitoring of trace gas concentrations trends in the free troposphere. Due to its location in central Europe and its proximity to anthropogenic greenhouse gas source regions it is also an appropriate study site for European regional source allocations during pollution events. The research activities of EMPA at the Jungfraujoch are conducted within the scope of the Swiss National Air Pollution Monitoring Network (NABEL) funded by the Swiss Federal Office for the Environment (FOEN) and the Global Atmosphere Watch Program (GAW) of the World Meteorological Organization (WMO). The measurement programme at Jungfraujoch includes continuous in-situ analyses of ozone (O3), carbon monoxide (CO), nitrogen monoxide (NO), nitrogen dioxide (NO2), and the sum of nitrogen oxides (NOy). In addition, an extended set of halocarbons and a selection of VOCs (alkanes, aromatics) are measured with a time resolution of four hours since 2000 as a part of SOGE. Daily samples are taken for determination of gaseous SO2 and for particulate sulphur. The concentrations of total suspended particles are continuously observed as well as measured as 48-hour bulk samples. Measurements of methane, nitrous oxide and sulphur hexafluoride were commenced in February 2005 funded by the FOEN. Therefore, the whole set of non-CO2 greenhouse gases is now continuously monitored at the Jungfraujoch." }, "instrument": { "ob_id": 315, "uuid": "6e6a11c756bf49e48dca59ca002f351b", "short_code": "instr", "title": "Leicester: Spectral Radiometer j(O1D)", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2917, "uuid": "233ed31cd3ec444292182733deda0932", "short_code": "acq", "title": "Acquisition Process for: ACSOE OXICOA FREETEX-96: Ozone and Radical Chemistry Data from Jungfraujoch High Alpine Research Station", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: Leicester: PEroxy Radical Chemical Amplification (PERCA) technique, Leicester: filter radiometer j(NO2), Automatic Weather Station (AWS), Leicester: Spectral Radiometer j(O1D), EMPA: UV absorption TEI49C, EMPA: ND-IR Horiba ARMA 360; PLATFORMS: Jungfraujoch, Switzerland; " } }, { "ob_id": 955, "platform": { "ob_id": 1523, "uuid": "97bdfb9741f441eebfb16440ebbb0f92", "short_code": "plat", "title": "Jungfraujoch Research Station", "abstract": "The high altitude research station Jungfraujoch (7° 59' E, 46° 32' N, 3580 m a.s.l.) is situated on a mountain saddle in the central Swiss Alps between the Jungfrau (4158 m a.s.l.) in the West and the Moench (4099 m a.s.l.) in the East. The International Foundation High Altitude Research Stations Jungfraujoch and Gornergrat (HFSJG) runs the research station and provides the infrastructure and support for scientific research. Due to its unique place, the year-round accessibility, and the excellent infrastructure, the Jungfraujoch research station is well suited for long-term ground-based monitoring of trace gas concentrations trends in the free troposphere. Due to its location in central Europe and its proximity to anthropogenic greenhouse gas source regions it is also an appropriate study site for European regional source allocations during pollution events. The research activities of EMPA at the Jungfraujoch are conducted within the scope of the Swiss National Air Pollution Monitoring Network (NABEL) funded by the Swiss Federal Office for the Environment (FOEN) and the Global Atmosphere Watch Program (GAW) of the World Meteorological Organization (WMO). The measurement programme at Jungfraujoch includes continuous in-situ analyses of ozone (O3), carbon monoxide (CO), nitrogen monoxide (NO), nitrogen dioxide (NO2), and the sum of nitrogen oxides (NOy). In addition, an extended set of halocarbons and a selection of VOCs (alkanes, aromatics) are measured with a time resolution of four hours since 2000 as a part of SOGE. Daily samples are taken for determination of gaseous SO2 and for particulate sulphur. The concentrations of total suspended particles are continuously observed as well as measured as 48-hour bulk samples. Measurements of methane, nitrous oxide and sulphur hexafluoride were commenced in February 2005 funded by the FOEN. Therefore, the whole set of non-CO2 greenhouse gases is now continuously monitored at the Jungfraujoch." }, "instrument": { "ob_id": 2915, "uuid": "fab352335cdc4b9e9f231ebe916c8611", "short_code": "instr", "title": "EMPA: TEI 409C UV absorption", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2917, "uuid": "233ed31cd3ec444292182733deda0932", "short_code": "acq", "title": "Acquisition Process for: ACSOE OXICOA FREETEX-96: Ozone and Radical Chemistry Data from Jungfraujoch High Alpine Research Station", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: Leicester: PEroxy Radical Chemical Amplification (PERCA) technique, Leicester: filter radiometer j(NO2), Automatic Weather Station (AWS), Leicester: Spectral Radiometer j(O1D), EMPA: UV absorption TEI49C, EMPA: ND-IR Horiba ARMA 360; PLATFORMS: Jungfraujoch, Switzerland; " } }, { "ob_id": 956, "platform": { "ob_id": 1523, "uuid": "97bdfb9741f441eebfb16440ebbb0f92", "short_code": "plat", "title": "Jungfraujoch Research Station", "abstract": "The high altitude research station Jungfraujoch (7° 59' E, 46° 32' N, 3580 m a.s.l.) is situated on a mountain saddle in the central Swiss Alps between the Jungfrau (4158 m a.s.l.) in the West and the Moench (4099 m a.s.l.) in the East. The International Foundation High Altitude Research Stations Jungfraujoch and Gornergrat (HFSJG) runs the research station and provides the infrastructure and support for scientific research. Due to its unique place, the year-round accessibility, and the excellent infrastructure, the Jungfraujoch research station is well suited for long-term ground-based monitoring of trace gas concentrations trends in the free troposphere. Due to its location in central Europe and its proximity to anthropogenic greenhouse gas source regions it is also an appropriate study site for European regional source allocations during pollution events. The research activities of EMPA at the Jungfraujoch are conducted within the scope of the Swiss National Air Pollution Monitoring Network (NABEL) funded by the Swiss Federal Office for the Environment (FOEN) and the Global Atmosphere Watch Program (GAW) of the World Meteorological Organization (WMO). The measurement programme at Jungfraujoch includes continuous in-situ analyses of ozone (O3), carbon monoxide (CO), nitrogen monoxide (NO), nitrogen dioxide (NO2), and the sum of nitrogen oxides (NOy). In addition, an extended set of halocarbons and a selection of VOCs (alkanes, aromatics) are measured with a time resolution of four hours since 2000 as a part of SOGE. Daily samples are taken for determination of gaseous SO2 and for particulate sulphur. The concentrations of total suspended particles are continuously observed as well as measured as 48-hour bulk samples. Measurements of methane, nitrous oxide and sulphur hexafluoride were commenced in February 2005 funded by the FOEN. Therefore, the whole set of non-CO2 greenhouse gases is now continuously monitored at the Jungfraujoch." }, "instrument": { "ob_id": 2916, "uuid": "8f12f092b1d14fc8861dcc95d7e440d3", "short_code": "instr", "title": "EMPA: Horiba Arma-360 (ND-IR technique)", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2917, "uuid": "233ed31cd3ec444292182733deda0932", "short_code": "acq", "title": "Acquisition Process for: ACSOE OXICOA FREETEX-96: Ozone and Radical Chemistry Data from Jungfraujoch High Alpine Research Station", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: Leicester: PEroxy Radical Chemical Amplification (PERCA) technique, Leicester: filter radiometer j(NO2), Automatic Weather Station (AWS), Leicester: Spectral Radiometer j(O1D), EMPA: UV absorption TEI49C, EMPA: ND-IR Horiba ARMA 360; PLATFORMS: Jungfraujoch, Switzerland; " } }, { "ob_id": 957, "platform": { "ob_id": 1523, "uuid": "97bdfb9741f441eebfb16440ebbb0f92", "short_code": "plat", "title": "Jungfraujoch Research Station", "abstract": "The high altitude research station Jungfraujoch (7° 59' E, 46° 32' N, 3580 m a.s.l.) is situated on a mountain saddle in the central Swiss Alps between the Jungfrau (4158 m a.s.l.) in the West and the Moench (4099 m a.s.l.) in the East. The International Foundation High Altitude Research Stations Jungfraujoch and Gornergrat (HFSJG) runs the research station and provides the infrastructure and support for scientific research. Due to its unique place, the year-round accessibility, and the excellent infrastructure, the Jungfraujoch research station is well suited for long-term ground-based monitoring of trace gas concentrations trends in the free troposphere. Due to its location in central Europe and its proximity to anthropogenic greenhouse gas source regions it is also an appropriate study site for European regional source allocations during pollution events. The research activities of EMPA at the Jungfraujoch are conducted within the scope of the Swiss National Air Pollution Monitoring Network (NABEL) funded by the Swiss Federal Office for the Environment (FOEN) and the Global Atmosphere Watch Program (GAW) of the World Meteorological Organization (WMO). The measurement programme at Jungfraujoch includes continuous in-situ analyses of ozone (O3), carbon monoxide (CO), nitrogen monoxide (NO), nitrogen dioxide (NO2), and the sum of nitrogen oxides (NOy). In addition, an extended set of halocarbons and a selection of VOCs (alkanes, aromatics) are measured with a time resolution of four hours since 2000 as a part of SOGE. Daily samples are taken for determination of gaseous SO2 and for particulate sulphur. The concentrations of total suspended particles are continuously observed as well as measured as 48-hour bulk samples. Measurements of methane, nitrous oxide and sulphur hexafluoride were commenced in February 2005 funded by the FOEN. Therefore, the whole set of non-CO2 greenhouse gases is now continuously monitored at the Jungfraujoch." }, "instrument": { "ob_id": 2920, "uuid": "95d3f5d4e5cd4c37bda48f36a4de8aad", "short_code": "instr", "title": "NILU: GC-FID", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2924, "uuid": "8573c81751644e39aa82095c2d0bb533", "short_code": "acq", "title": "Acquisition Process for: ACSOE OXICOA FREETEX-98: Ozone and Radical Chemistry Data from Jungfraujoch High Alpine Research Station", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: NILU: GC-FID, Leicester: Spectral Radiometer j(O1D), Leicester: Spectral Radiometer j(NO2), EMPA: ND-IR Horiba ARMA 360, EMPA: UV absorption TEI49C, Automatic Weather Station (AWS), UEA: Crannox NOx, O3, NOy, UEA: Formaldehyde (HCHO) instrument or Fluorometric, UEA: Packed column GC-ECD, UEA: condensation nuclei counter, EMPA: GC-ECD; PLATFORMS: Jungfraujoch, Switzerland; " } }, { "ob_id": 958, "platform": { "ob_id": 1523, "uuid": "97bdfb9741f441eebfb16440ebbb0f92", "short_code": "plat", "title": "Jungfraujoch Research Station", "abstract": "The high altitude research station Jungfraujoch (7° 59' E, 46° 32' N, 3580 m a.s.l.) is situated on a mountain saddle in the central Swiss Alps between the Jungfrau (4158 m a.s.l.) in the West and the Moench (4099 m a.s.l.) in the East. The International Foundation High Altitude Research Stations Jungfraujoch and Gornergrat (HFSJG) runs the research station and provides the infrastructure and support for scientific research. Due to its unique place, the year-round accessibility, and the excellent infrastructure, the Jungfraujoch research station is well suited for long-term ground-based monitoring of trace gas concentrations trends in the free troposphere. Due to its location in central Europe and its proximity to anthropogenic greenhouse gas source regions it is also an appropriate study site for European regional source allocations during pollution events. The research activities of EMPA at the Jungfraujoch are conducted within the scope of the Swiss National Air Pollution Monitoring Network (NABEL) funded by the Swiss Federal Office for the Environment (FOEN) and the Global Atmosphere Watch Program (GAW) of the World Meteorological Organization (WMO). The measurement programme at Jungfraujoch includes continuous in-situ analyses of ozone (O3), carbon monoxide (CO), nitrogen monoxide (NO), nitrogen dioxide (NO2), and the sum of nitrogen oxides (NOy). In addition, an extended set of halocarbons and a selection of VOCs (alkanes, aromatics) are measured with a time resolution of four hours since 2000 as a part of SOGE. Daily samples are taken for determination of gaseous SO2 and for particulate sulphur. The concentrations of total suspended particles are continuously observed as well as measured as 48-hour bulk samples. Measurements of methane, nitrous oxide and sulphur hexafluoride were commenced in February 2005 funded by the FOEN. Therefore, the whole set of non-CO2 greenhouse gases is now continuously monitored at the Jungfraujoch." }, "instrument": { "ob_id": 315, "uuid": "6e6a11c756bf49e48dca59ca002f351b", "short_code": "instr", "title": "Leicester: Spectral Radiometer j(O1D)", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2924, "uuid": "8573c81751644e39aa82095c2d0bb533", "short_code": "acq", "title": "Acquisition Process for: ACSOE OXICOA FREETEX-98: Ozone and Radical Chemistry Data from Jungfraujoch High Alpine Research Station", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: NILU: GC-FID, Leicester: Spectral Radiometer j(O1D), Leicester: Spectral Radiometer j(NO2), EMPA: ND-IR Horiba ARMA 360, EMPA: UV absorption TEI49C, Automatic Weather Station (AWS), UEA: Crannox NOx, O3, NOy, UEA: Formaldehyde (HCHO) instrument or Fluorometric, UEA: Packed column GC-ECD, UEA: condensation nuclei counter, EMPA: GC-ECD; PLATFORMS: Jungfraujoch, Switzerland; " } }, { "ob_id": 959, "platform": { "ob_id": 1523, "uuid": "97bdfb9741f441eebfb16440ebbb0f92", "short_code": "plat", "title": "Jungfraujoch Research Station", "abstract": "The high altitude research station Jungfraujoch (7° 59' E, 46° 32' N, 3580 m a.s.l.) is situated on a mountain saddle in the central Swiss Alps between the Jungfrau (4158 m a.s.l.) in the West and the Moench (4099 m a.s.l.) in the East. The International Foundation High Altitude Research Stations Jungfraujoch and Gornergrat (HFSJG) runs the research station and provides the infrastructure and support for scientific research. Due to its unique place, the year-round accessibility, and the excellent infrastructure, the Jungfraujoch research station is well suited for long-term ground-based monitoring of trace gas concentrations trends in the free troposphere. Due to its location in central Europe and its proximity to anthropogenic greenhouse gas source regions it is also an appropriate study site for European regional source allocations during pollution events. The research activities of EMPA at the Jungfraujoch are conducted within the scope of the Swiss National Air Pollution Monitoring Network (NABEL) funded by the Swiss Federal Office for the Environment (FOEN) and the Global Atmosphere Watch Program (GAW) of the World Meteorological Organization (WMO). The measurement programme at Jungfraujoch includes continuous in-situ analyses of ozone (O3), carbon monoxide (CO), nitrogen monoxide (NO), nitrogen dioxide (NO2), and the sum of nitrogen oxides (NOy). In addition, an extended set of halocarbons and a selection of VOCs (alkanes, aromatics) are measured with a time resolution of four hours since 2000 as a part of SOGE. Daily samples are taken for determination of gaseous SO2 and for particulate sulphur. The concentrations of total suspended particles are continuously observed as well as measured as 48-hour bulk samples. Measurements of methane, nitrous oxide and sulphur hexafluoride were commenced in February 2005 funded by the FOEN. Therefore, the whole set of non-CO2 greenhouse gases is now continuously monitored at the Jungfraujoch." }, "instrument": { "ob_id": 311, "uuid": "fe82ff833eaf4a9593134c237b303dc2", "short_code": "instr", "title": "Leicester: Spectral Radiometer j(NO2)", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2924, "uuid": "8573c81751644e39aa82095c2d0bb533", "short_code": "acq", "title": "Acquisition Process for: ACSOE OXICOA FREETEX-98: Ozone and Radical Chemistry Data from Jungfraujoch High Alpine Research Station", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: NILU: GC-FID, Leicester: Spectral Radiometer j(O1D), Leicester: Spectral Radiometer j(NO2), EMPA: ND-IR Horiba ARMA 360, EMPA: UV absorption TEI49C, Automatic Weather Station (AWS), UEA: Crannox NOx, O3, NOy, UEA: Formaldehyde (HCHO) instrument or Fluorometric, UEA: Packed column GC-ECD, UEA: condensation nuclei counter, EMPA: GC-ECD; PLATFORMS: Jungfraujoch, Switzerland; " } }, { "ob_id": 960, "platform": { "ob_id": 1523, "uuid": "97bdfb9741f441eebfb16440ebbb0f92", "short_code": "plat", "title": "Jungfraujoch Research Station", "abstract": "The high altitude research station Jungfraujoch (7° 59' E, 46° 32' N, 3580 m a.s.l.) is situated on a mountain saddle in the central Swiss Alps between the Jungfrau (4158 m a.s.l.) in the West and the Moench (4099 m a.s.l.) in the East. The International Foundation High Altitude Research Stations Jungfraujoch and Gornergrat (HFSJG) runs the research station and provides the infrastructure and support for scientific research. Due to its unique place, the year-round accessibility, and the excellent infrastructure, the Jungfraujoch research station is well suited for long-term ground-based monitoring of trace gas concentrations trends in the free troposphere. Due to its location in central Europe and its proximity to anthropogenic greenhouse gas source regions it is also an appropriate study site for European regional source allocations during pollution events. The research activities of EMPA at the Jungfraujoch are conducted within the scope of the Swiss National Air Pollution Monitoring Network (NABEL) funded by the Swiss Federal Office for the Environment (FOEN) and the Global Atmosphere Watch Program (GAW) of the World Meteorological Organization (WMO). The measurement programme at Jungfraujoch includes continuous in-situ analyses of ozone (O3), carbon monoxide (CO), nitrogen monoxide (NO), nitrogen dioxide (NO2), and the sum of nitrogen oxides (NOy). In addition, an extended set of halocarbons and a selection of VOCs (alkanes, aromatics) are measured with a time resolution of four hours since 2000 as a part of SOGE. Daily samples are taken for determination of gaseous SO2 and for particulate sulphur. The concentrations of total suspended particles are continuously observed as well as measured as 48-hour bulk samples. Measurements of methane, nitrous oxide and sulphur hexafluoride were commenced in February 2005 funded by the FOEN. Therefore, the whole set of non-CO2 greenhouse gases is now continuously monitored at the Jungfraujoch." }, "instrument": { "ob_id": 2916, "uuid": "8f12f092b1d14fc8861dcc95d7e440d3", "short_code": "instr", "title": "EMPA: Horiba Arma-360 (ND-IR technique)", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2924, "uuid": "8573c81751644e39aa82095c2d0bb533", "short_code": "acq", "title": "Acquisition Process for: ACSOE OXICOA FREETEX-98: Ozone and Radical Chemistry Data from Jungfraujoch High Alpine Research Station", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: NILU: GC-FID, Leicester: Spectral Radiometer j(O1D), Leicester: Spectral Radiometer j(NO2), EMPA: ND-IR Horiba ARMA 360, EMPA: UV absorption TEI49C, Automatic Weather Station (AWS), UEA: Crannox NOx, O3, NOy, UEA: Formaldehyde (HCHO) instrument or Fluorometric, UEA: Packed column GC-ECD, UEA: condensation nuclei counter, EMPA: GC-ECD; PLATFORMS: Jungfraujoch, Switzerland; " } }, { "ob_id": 961, "platform": { "ob_id": 1523, "uuid": "97bdfb9741f441eebfb16440ebbb0f92", "short_code": "plat", "title": "Jungfraujoch Research Station", "abstract": "The high altitude research station Jungfraujoch (7° 59' E, 46° 32' N, 3580 m a.s.l.) is situated on a mountain saddle in the central Swiss Alps between the Jungfrau (4158 m a.s.l.) in the West and the Moench (4099 m a.s.l.) in the East. The International Foundation High Altitude Research Stations Jungfraujoch and Gornergrat (HFSJG) runs the research station and provides the infrastructure and support for scientific research. Due to its unique place, the year-round accessibility, and the excellent infrastructure, the Jungfraujoch research station is well suited for long-term ground-based monitoring of trace gas concentrations trends in the free troposphere. Due to its location in central Europe and its proximity to anthropogenic greenhouse gas source regions it is also an appropriate study site for European regional source allocations during pollution events. The research activities of EMPA at the Jungfraujoch are conducted within the scope of the Swiss National Air Pollution Monitoring Network (NABEL) funded by the Swiss Federal Office for the Environment (FOEN) and the Global Atmosphere Watch Program (GAW) of the World Meteorological Organization (WMO). The measurement programme at Jungfraujoch includes continuous in-situ analyses of ozone (O3), carbon monoxide (CO), nitrogen monoxide (NO), nitrogen dioxide (NO2), and the sum of nitrogen oxides (NOy). In addition, an extended set of halocarbons and a selection of VOCs (alkanes, aromatics) are measured with a time resolution of four hours since 2000 as a part of SOGE. Daily samples are taken for determination of gaseous SO2 and for particulate sulphur. The concentrations of total suspended particles are continuously observed as well as measured as 48-hour bulk samples. Measurements of methane, nitrous oxide and sulphur hexafluoride were commenced in February 2005 funded by the FOEN. Therefore, the whole set of non-CO2 greenhouse gases is now continuously monitored at the Jungfraujoch." }, "instrument": { "ob_id": 2915, "uuid": "fab352335cdc4b9e9f231ebe916c8611", "short_code": "instr", "title": "EMPA: TEI 409C UV absorption", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2924, "uuid": "8573c81751644e39aa82095c2d0bb533", "short_code": "acq", "title": "Acquisition Process for: ACSOE OXICOA FREETEX-98: Ozone and Radical Chemistry Data from Jungfraujoch High Alpine Research Station", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: NILU: GC-FID, Leicester: Spectral Radiometer j(O1D), Leicester: Spectral Radiometer j(NO2), EMPA: ND-IR Horiba ARMA 360, EMPA: UV absorption TEI49C, Automatic Weather Station (AWS), UEA: Crannox NOx, O3, NOy, UEA: Formaldehyde (HCHO) instrument or Fluorometric, UEA: Packed column GC-ECD, UEA: condensation nuclei counter, EMPA: GC-ECD; PLATFORMS: Jungfraujoch, Switzerland; " } }, { "ob_id": 962, "platform": { "ob_id": 1523, "uuid": "97bdfb9741f441eebfb16440ebbb0f92", "short_code": "plat", "title": "Jungfraujoch Research Station", "abstract": "The high altitude research station Jungfraujoch (7° 59' E, 46° 32' N, 3580 m a.s.l.) is situated on a mountain saddle in the central Swiss Alps between the Jungfrau (4158 m a.s.l.) in the West and the Moench (4099 m a.s.l.) in the East. The International Foundation High Altitude Research Stations Jungfraujoch and Gornergrat (HFSJG) runs the research station and provides the infrastructure and support for scientific research. Due to its unique place, the year-round accessibility, and the excellent infrastructure, the Jungfraujoch research station is well suited for long-term ground-based monitoring of trace gas concentrations trends in the free troposphere. Due to its location in central Europe and its proximity to anthropogenic greenhouse gas source regions it is also an appropriate study site for European regional source allocations during pollution events. The research activities of EMPA at the Jungfraujoch are conducted within the scope of the Swiss National Air Pollution Monitoring Network (NABEL) funded by the Swiss Federal Office for the Environment (FOEN) and the Global Atmosphere Watch Program (GAW) of the World Meteorological Organization (WMO). The measurement programme at Jungfraujoch includes continuous in-situ analyses of ozone (O3), carbon monoxide (CO), nitrogen monoxide (NO), nitrogen dioxide (NO2), and the sum of nitrogen oxides (NOy). In addition, an extended set of halocarbons and a selection of VOCs (alkanes, aromatics) are measured with a time resolution of four hours since 2000 as a part of SOGE. Daily samples are taken for determination of gaseous SO2 and for particulate sulphur. The concentrations of total suspended particles are continuously observed as well as measured as 48-hour bulk samples. Measurements of methane, nitrous oxide and sulphur hexafluoride were commenced in February 2005 funded by the FOEN. Therefore, the whole set of non-CO2 greenhouse gases is now continuously monitored at the Jungfraujoch." }, "instrument": { "ob_id": 1061, "uuid": "a2f40afd5f054601a037d48a9aac17e9", "short_code": "instr", "title": "Automatic Weather Station (AWS)", "abstract": "An automatic weather station (AWS) is an automated version of the traditional weather station, either to save human labour or to enable measurements from remote areas. The system may report in near real time via ARGOS and the Global telecommunications system, or save the data for later recovery." }, "relatedTo": { "ob_id": 2924, "uuid": "8573c81751644e39aa82095c2d0bb533", "short_code": "acq", "title": "Acquisition Process for: ACSOE OXICOA FREETEX-98: Ozone and Radical Chemistry Data from Jungfraujoch High Alpine Research Station", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: NILU: GC-FID, Leicester: Spectral Radiometer j(O1D), Leicester: Spectral Radiometer j(NO2), EMPA: ND-IR Horiba ARMA 360, EMPA: UV absorption TEI49C, Automatic Weather Station (AWS), UEA: Crannox NOx, O3, NOy, UEA: Formaldehyde (HCHO) instrument or Fluorometric, UEA: Packed column GC-ECD, UEA: condensation nuclei counter, EMPA: GC-ECD; PLATFORMS: Jungfraujoch, Switzerland; " } }, { "ob_id": 963, "platform": { "ob_id": 1523, "uuid": "97bdfb9741f441eebfb16440ebbb0f92", "short_code": "plat", "title": "Jungfraujoch Research Station", "abstract": "The high altitude research station Jungfraujoch (7° 59' E, 46° 32' N, 3580 m a.s.l.) is situated on a mountain saddle in the central Swiss Alps between the Jungfrau (4158 m a.s.l.) in the West and the Moench (4099 m a.s.l.) in the East. The International Foundation High Altitude Research Stations Jungfraujoch and Gornergrat (HFSJG) runs the research station and provides the infrastructure and support for scientific research. Due to its unique place, the year-round accessibility, and the excellent infrastructure, the Jungfraujoch research station is well suited for long-term ground-based monitoring of trace gas concentrations trends in the free troposphere. Due to its location in central Europe and its proximity to anthropogenic greenhouse gas source regions it is also an appropriate study site for European regional source allocations during pollution events. The research activities of EMPA at the Jungfraujoch are conducted within the scope of the Swiss National Air Pollution Monitoring Network (NABEL) funded by the Swiss Federal Office for the Environment (FOEN) and the Global Atmosphere Watch Program (GAW) of the World Meteorological Organization (WMO). The measurement programme at Jungfraujoch includes continuous in-situ analyses of ozone (O3), carbon monoxide (CO), nitrogen monoxide (NO), nitrogen dioxide (NO2), and the sum of nitrogen oxides (NOy). In addition, an extended set of halocarbons and a selection of VOCs (alkanes, aromatics) are measured with a time resolution of four hours since 2000 as a part of SOGE. Daily samples are taken for determination of gaseous SO2 and for particulate sulphur. The concentrations of total suspended particles are continuously observed as well as measured as 48-hour bulk samples. Measurements of methane, nitrous oxide and sulphur hexafluoride were commenced in February 2005 funded by the FOEN. Therefore, the whole set of non-CO2 greenhouse gases is now continuously monitored at the Jungfraujoch." }, "instrument": { "ob_id": 1928, "uuid": "ec9859718cb84f699f7a3181dfa5d24b", "short_code": "instr", "title": "UEA: CRANOX NOx, O3, NOy", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2924, "uuid": "8573c81751644e39aa82095c2d0bb533", "short_code": "acq", "title": "Acquisition Process for: ACSOE OXICOA FREETEX-98: Ozone and Radical Chemistry Data from Jungfraujoch High Alpine Research Station", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: NILU: GC-FID, Leicester: Spectral Radiometer j(O1D), Leicester: Spectral Radiometer j(NO2), EMPA: ND-IR Horiba ARMA 360, EMPA: UV absorption TEI49C, Automatic Weather Station (AWS), UEA: Crannox NOx, O3, NOy, UEA: Formaldehyde (HCHO) instrument or Fluorometric, UEA: Packed column GC-ECD, UEA: condensation nuclei counter, EMPA: GC-ECD; PLATFORMS: Jungfraujoch, Switzerland; " } }, { "ob_id": 964, "platform": { "ob_id": 1523, "uuid": "97bdfb9741f441eebfb16440ebbb0f92", "short_code": "plat", "title": "Jungfraujoch Research Station", "abstract": "The high altitude research station Jungfraujoch (7° 59' E, 46° 32' N, 3580 m a.s.l.) is situated on a mountain saddle in the central Swiss Alps between the Jungfrau (4158 m a.s.l.) in the West and the Moench (4099 m a.s.l.) in the East. The International Foundation High Altitude Research Stations Jungfraujoch and Gornergrat (HFSJG) runs the research station and provides the infrastructure and support for scientific research. Due to its unique place, the year-round accessibility, and the excellent infrastructure, the Jungfraujoch research station is well suited for long-term ground-based monitoring of trace gas concentrations trends in the free troposphere. Due to its location in central Europe and its proximity to anthropogenic greenhouse gas source regions it is also an appropriate study site for European regional source allocations during pollution events. The research activities of EMPA at the Jungfraujoch are conducted within the scope of the Swiss National Air Pollution Monitoring Network (NABEL) funded by the Swiss Federal Office for the Environment (FOEN) and the Global Atmosphere Watch Program (GAW) of the World Meteorological Organization (WMO). The measurement programme at Jungfraujoch includes continuous in-situ analyses of ozone (O3), carbon monoxide (CO), nitrogen monoxide (NO), nitrogen dioxide (NO2), and the sum of nitrogen oxides (NOy). In addition, an extended set of halocarbons and a selection of VOCs (alkanes, aromatics) are measured with a time resolution of four hours since 2000 as a part of SOGE. Daily samples are taken for determination of gaseous SO2 and for particulate sulphur. The concentrations of total suspended particles are continuously observed as well as measured as 48-hour bulk samples. Measurements of methane, nitrous oxide and sulphur hexafluoride were commenced in February 2005 funded by the FOEN. Therefore, the whole set of non-CO2 greenhouse gases is now continuously monitored at the Jungfraujoch." }, "instrument": { "ob_id": 196, "uuid": "dac2ad6b673e4e2c9c4973d4f3086251", "short_code": "instr", "title": "UEA: Formaldehyde (HCHO) instrument or Fluorometric", "abstract": "An instrument from the Penkett group at UEA which is flown on research aircrafts to provide 1Hz flourescence measurements of formaldehyde concentration." }, "relatedTo": { "ob_id": 2924, "uuid": "8573c81751644e39aa82095c2d0bb533", "short_code": "acq", "title": "Acquisition Process for: ACSOE OXICOA FREETEX-98: Ozone and Radical Chemistry Data from Jungfraujoch High Alpine Research Station", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: NILU: GC-FID, Leicester: Spectral Radiometer j(O1D), Leicester: Spectral Radiometer j(NO2), EMPA: ND-IR Horiba ARMA 360, EMPA: UV absorption TEI49C, Automatic Weather Station (AWS), UEA: Crannox NOx, O3, NOy, UEA: Formaldehyde (HCHO) instrument or Fluorometric, UEA: Packed column GC-ECD, UEA: condensation nuclei counter, EMPA: GC-ECD; PLATFORMS: Jungfraujoch, Switzerland; " } }, { "ob_id": 965, "platform": { "ob_id": 1523, "uuid": "97bdfb9741f441eebfb16440ebbb0f92", "short_code": "plat", "title": "Jungfraujoch Research Station", "abstract": "The high altitude research station Jungfraujoch (7° 59' E, 46° 32' N, 3580 m a.s.l.) is situated on a mountain saddle in the central Swiss Alps between the Jungfrau (4158 m a.s.l.) in the West and the Moench (4099 m a.s.l.) in the East. The International Foundation High Altitude Research Stations Jungfraujoch and Gornergrat (HFSJG) runs the research station and provides the infrastructure and support for scientific research. Due to its unique place, the year-round accessibility, and the excellent infrastructure, the Jungfraujoch research station is well suited for long-term ground-based monitoring of trace gas concentrations trends in the free troposphere. Due to its location in central Europe and its proximity to anthropogenic greenhouse gas source regions it is also an appropriate study site for European regional source allocations during pollution events. The research activities of EMPA at the Jungfraujoch are conducted within the scope of the Swiss National Air Pollution Monitoring Network (NABEL) funded by the Swiss Federal Office for the Environment (FOEN) and the Global Atmosphere Watch Program (GAW) of the World Meteorological Organization (WMO). The measurement programme at Jungfraujoch includes continuous in-situ analyses of ozone (O3), carbon monoxide (CO), nitrogen monoxide (NO), nitrogen dioxide (NO2), and the sum of nitrogen oxides (NOy). In addition, an extended set of halocarbons and a selection of VOCs (alkanes, aromatics) are measured with a time resolution of four hours since 2000 as a part of SOGE. Daily samples are taken for determination of gaseous SO2 and for particulate sulphur. The concentrations of total suspended particles are continuously observed as well as measured as 48-hour bulk samples. Measurements of methane, nitrous oxide and sulphur hexafluoride were commenced in February 2005 funded by the FOEN. Therefore, the whole set of non-CO2 greenhouse gases is now continuously monitored at the Jungfraujoch." }, "instrument": { "ob_id": 2921, "uuid": "d40506b4be3b4309af3235282eb03391", "short_code": "instr", "title": "UEA: Packed column GC-ECD", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2924, "uuid": "8573c81751644e39aa82095c2d0bb533", "short_code": "acq", "title": "Acquisition Process for: ACSOE OXICOA FREETEX-98: Ozone and Radical Chemistry Data from Jungfraujoch High Alpine Research Station", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: NILU: GC-FID, Leicester: Spectral Radiometer j(O1D), Leicester: Spectral Radiometer j(NO2), EMPA: ND-IR Horiba ARMA 360, EMPA: UV absorption TEI49C, Automatic Weather Station (AWS), UEA: Crannox NOx, O3, NOy, UEA: Formaldehyde (HCHO) instrument or Fluorometric, UEA: Packed column GC-ECD, UEA: condensation nuclei counter, EMPA: GC-ECD; PLATFORMS: Jungfraujoch, Switzerland; " } }, { "ob_id": 966, "platform": { "ob_id": 1523, "uuid": "97bdfb9741f441eebfb16440ebbb0f92", "short_code": "plat", "title": "Jungfraujoch Research Station", "abstract": "The high altitude research station Jungfraujoch (7° 59' E, 46° 32' N, 3580 m a.s.l.) is situated on a mountain saddle in the central Swiss Alps between the Jungfrau (4158 m a.s.l.) in the West and the Moench (4099 m a.s.l.) in the East. The International Foundation High Altitude Research Stations Jungfraujoch and Gornergrat (HFSJG) runs the research station and provides the infrastructure and support for scientific research. Due to its unique place, the year-round accessibility, and the excellent infrastructure, the Jungfraujoch research station is well suited for long-term ground-based monitoring of trace gas concentrations trends in the free troposphere. Due to its location in central Europe and its proximity to anthropogenic greenhouse gas source regions it is also an appropriate study site for European regional source allocations during pollution events. The research activities of EMPA at the Jungfraujoch are conducted within the scope of the Swiss National Air Pollution Monitoring Network (NABEL) funded by the Swiss Federal Office for the Environment (FOEN) and the Global Atmosphere Watch Program (GAW) of the World Meteorological Organization (WMO). The measurement programme at Jungfraujoch includes continuous in-situ analyses of ozone (O3), carbon monoxide (CO), nitrogen monoxide (NO), nitrogen dioxide (NO2), and the sum of nitrogen oxides (NOy). In addition, an extended set of halocarbons and a selection of VOCs (alkanes, aromatics) are measured with a time resolution of four hours since 2000 as a part of SOGE. Daily samples are taken for determination of gaseous SO2 and for particulate sulphur. The concentrations of total suspended particles are continuously observed as well as measured as 48-hour bulk samples. Measurements of methane, nitrous oxide and sulphur hexafluoride were commenced in February 2005 funded by the FOEN. Therefore, the whole set of non-CO2 greenhouse gases is now continuously monitored at the Jungfraujoch." }, "instrument": { "ob_id": 2922, "uuid": "a962d4cde17e494a85851ddf89abec47", "short_code": "instr", "title": "UEA: condensation nuclei counter", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2924, "uuid": "8573c81751644e39aa82095c2d0bb533", "short_code": "acq", "title": "Acquisition Process for: ACSOE OXICOA FREETEX-98: Ozone and Radical Chemistry Data from Jungfraujoch High Alpine Research Station", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: NILU: GC-FID, Leicester: Spectral Radiometer j(O1D), Leicester: Spectral Radiometer j(NO2), EMPA: ND-IR Horiba ARMA 360, EMPA: UV absorption TEI49C, Automatic Weather Station (AWS), UEA: Crannox NOx, O3, NOy, UEA: Formaldehyde (HCHO) instrument or Fluorometric, UEA: Packed column GC-ECD, UEA: condensation nuclei counter, EMPA: GC-ECD; PLATFORMS: Jungfraujoch, Switzerland; " } }, { "ob_id": 967, "platform": { "ob_id": 1523, "uuid": "97bdfb9741f441eebfb16440ebbb0f92", "short_code": "plat", "title": "Jungfraujoch Research Station", "abstract": "The high altitude research station Jungfraujoch (7° 59' E, 46° 32' N, 3580 m a.s.l.) is situated on a mountain saddle in the central Swiss Alps between the Jungfrau (4158 m a.s.l.) in the West and the Moench (4099 m a.s.l.) in the East. The International Foundation High Altitude Research Stations Jungfraujoch and Gornergrat (HFSJG) runs the research station and provides the infrastructure and support for scientific research. Due to its unique place, the year-round accessibility, and the excellent infrastructure, the Jungfraujoch research station is well suited for long-term ground-based monitoring of trace gas concentrations trends in the free troposphere. Due to its location in central Europe and its proximity to anthropogenic greenhouse gas source regions it is also an appropriate study site for European regional source allocations during pollution events. The research activities of EMPA at the Jungfraujoch are conducted within the scope of the Swiss National Air Pollution Monitoring Network (NABEL) funded by the Swiss Federal Office for the Environment (FOEN) and the Global Atmosphere Watch Program (GAW) of the World Meteorological Organization (WMO). The measurement programme at Jungfraujoch includes continuous in-situ analyses of ozone (O3), carbon monoxide (CO), nitrogen monoxide (NO), nitrogen dioxide (NO2), and the sum of nitrogen oxides (NOy). In addition, an extended set of halocarbons and a selection of VOCs (alkanes, aromatics) are measured with a time resolution of four hours since 2000 as a part of SOGE. Daily samples are taken for determination of gaseous SO2 and for particulate sulphur. The concentrations of total suspended particles are continuously observed as well as measured as 48-hour bulk samples. Measurements of methane, nitrous oxide and sulphur hexafluoride were commenced in February 2005 funded by the FOEN. Therefore, the whole set of non-CO2 greenhouse gases is now continuously monitored at the Jungfraujoch." }, "instrument": { "ob_id": 2923, "uuid": "2f67f2b572884de0ac8bce1e54710ba8", "short_code": "instr", "title": "EMPA: GC-ECD", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 2924, "uuid": "8573c81751644e39aa82095c2d0bb533", "short_code": "acq", "title": "Acquisition Process for: ACSOE OXICOA FREETEX-98: Ozone and Radical Chemistry Data from Jungfraujoch High Alpine Research Station", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: NILU: GC-FID, Leicester: Spectral Radiometer j(O1D), Leicester: Spectral Radiometer j(NO2), EMPA: ND-IR Horiba ARMA 360, EMPA: UV absorption TEI49C, Automatic Weather Station (AWS), UEA: Crannox NOx, O3, NOy, UEA: Formaldehyde (HCHO) instrument or Fluorometric, UEA: Packed column GC-ECD, UEA: condensation nuclei counter, EMPA: GC-ECD; PLATFORMS: Jungfraujoch, Switzerland; " } }, { "ob_id": 968, "platform": { "ob_id": 2929, "uuid": "86c330a64a204aef96ab615f56ba9da2", "short_code": "plat", "title": "Kuujjuarapik, Hudson Bay, Canada", "abstract": "Kuujjuarapik, Hudson Bay, Canada (55.30N, 77.73W)" }, "instrument": { "ob_id": 2930, "uuid": "c553f90bdc7d4237b899eb32d61c28dc", "short_code": "instr", "title": "BAS: Brunauer-Emmett-Teller (BET) - Isotherm Analysis", "abstract": "BET theory aims to explain the physical adsorption of gas molecules on a solid surface and serves as the basis for an important analysis technique for the measurement of the specific surface area (SSA) of a material (e.g. Frost Flowers SSA)." }, "relatedTo": { "ob_id": 2931, "uuid": "1c249ddabcb84549a3f923818d3ff6c8", "short_code": "acq", "title": "Acquisition Process for: BAS Frost Flower SSA using a Brunauer-Emmett-Teller (BET) surface area measurement apparatus, Kuujjuarapik, March 2008 for COBRA Campaign", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: BAS: Brunauer-Emmett-Teller (BET) - Isotherm Analysis; PLATFORMS: Kuujjuarapik, Hudson Bay, Canada; " } } ] }