Space Telescopes and Instrumentation 2018: Optical, Infrared, and Millimeter Wave 2018
DOI: 10.1117/12.2313384
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Heterodyn receiver for the Origins Space Telescope concept 2

Abstract: The Origins Space Telescope (OST) is a NASA study for a large satellite mission to be submitted to the 2020 Decadal Review. The proposed satellite has a fleet of instruments including the HEterodyne Receivers for OST (HERO). HERO is designed around the quest to follow the trail of water from the ISM to disks around protostars and planets. HERO will perform high-spectral resolution measurements with 2x9 pixel focal plane arrays at any frequency between 468GHz to 2,700GHz (617 to 111 μm). HERO builds on the succ… Show more

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“…OST: The Origin Space Telescope (OST, launch foreseen in 2035) is a mission studied to be the follow up of JWST [203,204]. The current baseline is a space telescope with a large aperture (segmented off-axis design with a diameter of ∼9 m) carrying up to five instrument [205][206][207][208][209]: (i) Far-infrared imager and polarimeter (FIP) is a broad band imager able to use two wavebands in parallel at a time, over large angular areas ; (ii) the Mid-infrared Imager, Spectrometer and Coronagraph (MISC), which operates between 5 and 28 µm, has an ultra-stable spectrometer channel built to do exoplanet transits with high precision; (iii) the OST Survey Spectrometer (OSS) can survey the sky over its whole wavelength range of 25 and 590 µm with low resolution spectroscopy with R ∼ 300; (iv) the Heterodyne Receiver for OST (HERO)uses an array of 9 coherent detectors over the wavelength range of 111 to 617 µm to achieve the highest spectral resolutions of R ∼ 10 6 − 10 7 for measurements of simultaneous spectral lines.…”
Section: Platomentioning
confidence: 99%
“…OST: The Origin Space Telescope (OST, launch foreseen in 2035) is a mission studied to be the follow up of JWST [203,204]. The current baseline is a space telescope with a large aperture (segmented off-axis design with a diameter of ∼9 m) carrying up to five instrument [205][206][207][208][209]: (i) Far-infrared imager and polarimeter (FIP) is a broad band imager able to use two wavebands in parallel at a time, over large angular areas ; (ii) the Mid-infrared Imager, Spectrometer and Coronagraph (MISC), which operates between 5 and 28 µm, has an ultra-stable spectrometer channel built to do exoplanet transits with high precision; (iii) the OST Survey Spectrometer (OSS) can survey the sky over its whole wavelength range of 25 and 590 µm with low resolution spectroscopy with R ∼ 300; (iv) the Heterodyne Receiver for OST (HERO)uses an array of 9 coherent detectors over the wavelength range of 111 to 617 µm to achieve the highest spectral resolutions of R ∼ 10 6 − 10 7 for measurements of simultaneous spectral lines.…”
Section: Platomentioning
confidence: 99%