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Far infrared imaging spectrometers for the next generation astronomical instruments

Conference Paper (2022)
Author(s)

Jochem J. A. Baselmans (TU Delft - Tera-Hertz Sensing, SRON–Netherlands Institute for Space Research)

A. Endo (TU Delft - Tera-Hertz Sensing)

K. Karatsu (SRON–Netherlands Institute for Space Research)

S. Hähnle (SRON–Netherlands Institute for Space Research)

Alejandro Pascual Laguna (SRON–Netherlands Institute for Space Research)

S. Yates (SRON–Netherlands Institute for Space Research)

L. Ferrari (SRON–Netherlands Institute for Space Research)

N. Llombart (TU Delft - Tera-Hertz Sensing)

J. Bueno Lopez (TU Delft - Electronics)

F. Facchi (Student TU Delft)

David Thoen (TU Delft - Tera-Hertz Sensing)

V. Murugesan (SRON–Netherlands Institute for Space Research)

P. van der Werf (Universiteit Leiden)

P.J. Visser (SRON–Netherlands Institute for Space Research, TU Delft - Tera-Hertz Sensing)

Research Group
Tera-Hertz Sensing
Copyright
© 2022 J.J.A. Baselmans, A. Endo, K. Karatsu, S. Hähnle, A. Pascual Laguna, S. Yates, L. Ferrari, Nuria Llombart, J. Bueno Lopez, F. Facchi, David Thoen, V. Murugesan, P. van der werf, P.J. de Visser
DOI related publication
https://doi.org/10.1109/IRMMW-THz50927.2022.9895752
More Info
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Publication Year
2022
Language
English
Copyright
© 2022 J.J.A. Baselmans, A. Endo, K. Karatsu, S. Hähnle, A. Pascual Laguna, S. Yates, L. Ferrari, Nuria Llombart, J. Bueno Lopez, F. Facchi, David Thoen, V. Murugesan, P. van der werf, P.J. de Visser
Research Group
Tera-Hertz Sensing
Bibliographical Note
Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public.@en
Pages (from-to)
1-2
ISBN (print)
978-1-7281-9428-8
ISBN (electronic)
978-1-7281-9427-1
Reuse Rights

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Abstract

Advances in far infrared astronomy have been, and will be, defined by instrument capabilities. Especially relevant is the development of imaging spectrometers for the wavelength range of 0.03-3 mm, which are not available at all at this moment. We will discuss recent advances in this field: First, we discuss the development of miniature on-chip spectrometers, that can operate in a 0.09-1 THz by using lossless superconducting circuits to create miniature spectrometers. For higher frequencies this is not possible due to material limitations, moreover instruments have to be operated in space due to the opacity of the atmosphere. Recent proposals for new missions focus on space-based observatories with optics cooled down to 4K, which offer unprecedented spectral imaging speeds, but require large arrays of extremely sensitive detectors. In the second part of this paper we will discuss the development of microwave Kinetic Inductance detectors with a sensitivity of NEP. 3.1.10-20 W/ãHz, sufficient for these applications.

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