Modal Simulation Framework for the Design and Verification of Future Few-Mode Far-Infrared Spectrometers

Modal Simulation Framework for the Design and Verification of Future Few-Mode Far-Infrared Spectrometers

Future far-infrared space missions require highly-sensitive spectroscopy as a primary diagnostics tool. However, these systems are sensitive to straylight, due to the ultra-sensitive few-mode detectors used, which affects the measurement and calibration of the spectrum, as revealed by the Herschel m...

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Veröffentlicht in:arXiv.org 2022-06
Hauptverfasser: Lap, B N R, Jellema, W, Withington, S, Naylor, D A
Format: Artikel
Sprache:eng
Schlagworte:
Calibration
Far infrared radiation
Infrared spectrometers
Space missions
Verification
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Zusammenfassung:Future far-infrared space missions require highly-sensitive spectroscopy as a primary diagnostics tool. However, these systems are sensitive to straylight, due to the ultra-sensitive few-mode detectors used, which affects the measurement and calibration of the spectrum, as revealed by the Herschel mission. To ensure that the science goals of future missions are met, the complex modal behaviour has to be understood, and appropriate verification and calibration strategies must be developed. We propose a modal framework to addresses these issues, using Herschel-SPIRE as a case study, and demonstrate how the technique can be used for the design and verification of spectrometers in future far-infrared missions.
ISSN:2331-8422