Cryogenic far-infrared laser absorptivity measurements of the Herschel Space Observatory telescope mirror coatings

Far-infrared laser calorimetry was used to measure the absorptivity, and thus the emissivity, of aluminum-coated silicon carbide mirror samples produced during the coating qualification run of the Herschel Space Observatory telescope to be launched by the European Space Agency in 2007. The samples w...

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Veröffentlicht in:	Applied Optics 2004-07, Vol.43 (19), p.3765-3771
Hauptverfasser:	Fischer, Jacqueline, Klaassen, Tjeerd, Hovenier, Niels, Jakob, Gerd, Poglitsch, Albrecht, Sternberg, Oren
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container_end_page	3771
container_issue	19
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container_title	Applied Optics
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creator	Fischer, Jacqueline Klaassen, Tjeerd Hovenier, Niels Jakob, Gerd Poglitsch, Albrecht Sternberg, Oren
description	Far-infrared laser calorimetry was used to measure the absorptivity, and thus the emissivity, of aluminum-coated silicon carbide mirror samples produced during the coating qualification run of the Herschel Space Observatory telescope to be launched by the European Space Agency in 2007. The samples were measured at 77 K to simulate the operating temperature of the telescope in its planned orbit about the second Lagrangian point, L2, of the Earth-Sun system. Together, the telescope's equilibrium temperature in space and the emissivity of the mirror surfaces will determine the far-infrared-submillimeter background and thus the sensitivity of two of the three astronomical instruments aboard the observatory if stray-light levels can be kept low relative to the mirror emission. Absorptivities of both clean and dust-contaminated samples were measured at 70, 118, 184, and 496 microm. Theoretical fits to the data predict absorptivities of 0.2-0.4% for the clean sample and 0.2-0.8% for the dusty sample, over the spectral range of the Herschel Space Observatory instruments.
doi_str_mv	10.1364/AO.43.003765
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title	Cryogenic far-infrared laser absorptivity measurements of the Herschel Space Observatory telescope mirror coatings
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