远红外赫歇尔外差仪(HIFI)

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
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引用次数: 678

摘要

远红外外差仪器(HIFI)是欧空局赫歇尔空间天文台的单天像素高分辨率光谱仪(>300.000)。该仪器旨在提供广泛和连续的频率覆盖,具有速度分辨分辨率和高灵敏度。这样就可以对各种各样的天文来源进行详细的研究,从太阳系天体,恒星形成区域到星系核。这些频带覆盖了分子的许多发射和吸收谱线,如H/sub /O,以及原子和离子谱线,如CII、NII。该仪器包括5个频段,覆盖480-150 GHz,配有SIS混频器,以及第6个双频段,用于1410-1910 GHz范围,配有热电子辐射热计混频器。本振(LO)子系统由一个ka波段合成器和14个乘频器链组成,每个频段2个。每个频带有两个在正交偏振上工作的混频器。所有混频器都设计成具有接近量子噪声极限的噪声性能。一次操作一个频带。焦平面单元的模块化设计,为所有混频器带提供了共同的光路,本振单元为所有本振链提供了一个共同的本振源单元,使仪器非常紧凑。一对自相关器和一对声光光谱仪处理来自双偏振前端的两个中频信号,并提供4 GHz的瞬时频率覆盖,从而产生一组分辨率(140 KHz至1 MHz),优于<0.1 Km/s。仪器的发展处于先进状态,混频器和LO链接近目标性能。
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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.
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Simulation and optimization of arsenic-implanted THz emitters The Herschel-Heterodyne Instrument for the Far-Infrared (HIFI) Chaotic electron dynamics in gyrotron resonators Millimeter wave diagnostics of materials and melts A high performance CW-THz photomixing imaging system
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