7010-5Thijs de Graauw, N. Whyborn, F. Helmich, P. Dieleman, P. Roelfsema, E. Caux, T. Phillips, J. Stutzki, D. Beintema, A. Benz, N. Biver, A. Boogert, F. Boulanger, S. Cherednichenko, O. Coeur-Joly, C. Comito, E. Dartois, A. D. de Jonge, G. de Lange, Ian Delorme, A. Digiorgio, L. Dubbeldam, K. Edwards, M. Fich, R. Güsten, F. Herpin, N. Honingh, R. Huisman, H. Jacobs, W. Jellema, J. Kawamura, D. Kester, T. Klapwijk, T. Klein, J. Kooi, J. Krieg, C. Kramer, Bob Kruizenga, W. Laauwen, B. Larsson, C. Leinz, R. Liseau, S. Lord, W. Luinge, A. Marston, H. Merkel, R. Moreno, P. Morris, A. Murphy, A. Naber, P. Planesas, J. Martín-Pintado, Micheal Olberg, P. Orleanski, V. Ossenkopf, John Pearson, M. Pérault, S. Phillip, M. Rataj, L. Ravera, P. Saraceno, R. Schieder, F. Schmuelling, R. Szczerba, R. Shipman, D. Teyssier, C. Vastel, H. Visser, K. Wildeman, Kees Wafelbakker, J. Ward, R. Higgins, H. Aarts, X. Tielens, P. Zaal
{"title":"远红外赫歇尔外差仪(HIFI)","authors":"7010-5Thijs de Graauw, N. Whyborn, F. Helmich, P. Dieleman, P. Roelfsema, E. Caux, T. Phillips, J. Stutzki, D. Beintema, A. Benz, N. Biver, A. Boogert, F. Boulanger, S. Cherednichenko, O. Coeur-Joly, C. Comito, E. Dartois, A. D. de Jonge, G. de Lange, Ian Delorme, A. Digiorgio, L. Dubbeldam, K. Edwards, M. Fich, R. Güsten, F. Herpin, N. Honingh, R. Huisman, H. Jacobs, W. Jellema, J. Kawamura, D. Kester, T. Klapwijk, T. Klein, J. Kooi, J. Krieg, C. Kramer, Bob Kruizenga, W. Laauwen, B. Larsson, C. Leinz, R. Liseau, S. Lord, W. Luinge, A. Marston, H. Merkel, R. Moreno, P. Morris, A. Murphy, A. Naber, P. Planesas, J. Martín-Pintado, Micheal Olberg, P. Orleanski, V. Ossenkopf, John Pearson, M. Pérault, S. Phillip, M. Rataj, L. Ravera, P. Saraceno, R. Schieder, F. Schmuelling, R. Szczerba, R. Shipman, D. Teyssier, C. Vastel, H. Visser, K. Wildeman, Kees Wafelbakker, J. Ward, R. Higgins, H. Aarts, X. Tielens, P. Zaal","doi":"10.1117/12.788659","DOIUrl":null,"url":null,"abstract":"The Heterodyne Instrument for the Far-Infrared (HIFI) is a single sky-pixel, high-resolution (>300.000), spectrometer for ESA's Herschel Space Observatory. The instrument is designed to provide a wide and continuous frequency coverage with a velocity resolved resolution and a high sensitivity. This allows detailed investigations of a wide variety of astronomical sources, ranging from solar system objects, star formation regions to nuclei of galaxies. The frequency bands cover many emission and absorption lines of molecules, like H/sub 2/O, and atomic and ionic lines, like CII, NII. The instrument comprises of 5 frequency bands covering 480-150 GHz with SIS mixers and a sixth dual band for the 1410-1910 GHz range with Hot Electron Bolometer Mixers. The Local Oscillator (LO) subsystem consists of a Ka-band synthesiser followed by 14 chains of frequency multipliers, 2 for each frequency band. Each frequency band has two mixers operating on orthogonal polarisations. All mixers are designed to have a noise performance close to the quantum noise limit. One frequency band is operated at a time. Modular design of the Focal Plane Unit, with a common optical path for all the mixer bands, and of the Local Oscillator Unit with a common LO Source Unit for all the LO chains, make the instrument very compact. A pair of Auto-Correlators and a pair of Acousto-Optic spectrometers process the two IF signals from the dual-polarisation front-ends and provide instantaneous frequency coverage of 4 GHz, resulting in a set of resolutions (140 KHz to 1 MHz), better than <0.1 Km/s. The instrument development is in an advanced state with mixers and LO chains approaching aimed performance.","PeriodicalId":13627,"journal":{"name":"Infrared and Millimeter Waves, Conference Digest of the 2004 Joint 29th International Conference on 2004 and 12th International Conference on Terahertz Electronics, 2004.","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2005-12-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"678","resultStr":"{\"title\":\"The Herschel-Heterodyne Instrument for the Far-Infrared (HIFI)\",\"authors\":\"7010-5Thijs de Graauw, N. Whyborn, F. Helmich, P. Dieleman, P. Roelfsema, E. Caux, T. Phillips, J. Stutzki, D. Beintema, A. Benz, N. Biver, A. Boogert, F. Boulanger, S. Cherednichenko, O. Coeur-Joly, C. Comito, E. Dartois, A. D. de Jonge, G. de Lange, Ian Delorme, A. Digiorgio, L. Dubbeldam, K. Edwards, M. Fich, R. Güsten, F. Herpin, N. Honingh, R. Huisman, H. Jacobs, W. Jellema, J. Kawamura, D. Kester, T. Klapwijk, T. Klein, J. Kooi, J. Krieg, C. Kramer, Bob Kruizenga, W. Laauwen, B. Larsson, C. Leinz, R. Liseau, S. Lord, W. Luinge, A. Marston, H. Merkel, R. Moreno, P. Morris, A. Murphy, A. Naber, P. Planesas, J. Martín-Pintado, Micheal Olberg, P. Orleanski, V. Ossenkopf, John Pearson, M. Pérault, S. Phillip, M. Rataj, L. Ravera, P. Saraceno, R. Schieder, F. Schmuelling, R. Szczerba, R. Shipman, D. Teyssier, C. Vastel, H. Visser, K. Wildeman, Kees Wafelbakker, J. Ward, R. Higgins, H. Aarts, X. Tielens, P. Zaal\",\"doi\":\"10.1117/12.788659\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"The Heterodyne Instrument for the Far-Infrared (HIFI) is a single sky-pixel, high-resolution (>300.000), spectrometer for ESA's Herschel Space Observatory. The instrument is designed to provide a wide and continuous frequency coverage with a velocity resolved resolution and a high sensitivity. This allows detailed investigations of a wide variety of astronomical sources, ranging from solar system objects, star formation regions to nuclei of galaxies. The frequency bands cover many emission and absorption lines of molecules, like H/sub 2/O, and atomic and ionic lines, like CII, NII. The instrument comprises of 5 frequency bands covering 480-150 GHz with SIS mixers and a sixth dual band for the 1410-1910 GHz range with Hot Electron Bolometer Mixers. The Local Oscillator (LO) subsystem consists of a Ka-band synthesiser followed by 14 chains of frequency multipliers, 2 for each frequency band. Each frequency band has two mixers operating on orthogonal polarisations. All mixers are designed to have a noise performance close to the quantum noise limit. One frequency band is operated at a time. Modular design of the Focal Plane Unit, with a common optical path for all the mixer bands, and of the Local Oscillator Unit with a common LO Source Unit for all the LO chains, make the instrument very compact. A pair of Auto-Correlators and a pair of Acousto-Optic spectrometers process the two IF signals from the dual-polarisation front-ends and provide instantaneous frequency coverage of 4 GHz, resulting in a set of resolutions (140 KHz to 1 MHz), better than <0.1 Km/s. 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The Herschel-Heterodyne Instrument for the Far-Infrared (HIFI)
The Heterodyne Instrument for the Far-Infrared (HIFI) is a single sky-pixel, high-resolution (>300.000), spectrometer for ESA's Herschel Space Observatory. The instrument is designed to provide a wide and continuous frequency coverage with a velocity resolved resolution and a high sensitivity. This allows detailed investigations of a wide variety of astronomical sources, ranging from solar system objects, star formation regions to nuclei of galaxies. The frequency bands cover many emission and absorption lines of molecules, like H/sub 2/O, and atomic and ionic lines, like CII, NII. The instrument comprises of 5 frequency bands covering 480-150 GHz with SIS mixers and a sixth dual band for the 1410-1910 GHz range with Hot Electron Bolometer Mixers. The Local Oscillator (LO) subsystem consists of a Ka-band synthesiser followed by 14 chains of frequency multipliers, 2 for each frequency band. Each frequency band has two mixers operating on orthogonal polarisations. All mixers are designed to have a noise performance close to the quantum noise limit. One frequency band is operated at a time. Modular design of the Focal Plane Unit, with a common optical path for all the mixer bands, and of the Local Oscillator Unit with a common LO Source Unit for all the LO chains, make the instrument very compact. A pair of Auto-Correlators and a pair of Acousto-Optic spectrometers process the two IF signals from the dual-polarisation front-ends and provide instantaneous frequency coverage of 4 GHz, resulting in a set of resolutions (140 KHz to 1 MHz), better than <0.1 Km/s. The instrument development is in an advanced state with mixers and LO chains approaching aimed performance.