Kinetic inductance detectors for millimeter and submillimeter astronomy / D\'etecteurs \`a inductance cin\'etique pour l'astronomie millim\'etrique et sub-millim\'etrique
Nicolas Boudou, Alain Benoit, Olivier Bourrion, Martino Calvo,, Fran\c{c}ois-Xavier D\'esert, Juan Macias-Perez, Alessandro Monfardini,, Markus Roesch
TL;DR
This paper discusses recent advancements in Kinetic Inductance Detectors (KID) for large array applications in ground-based millimeter wave astronomy, highlighting the NIKA instrument's design, operation, and initial astronomical observations.
Contribution
It presents the development and implementation of the NIKA dual-band KID camera, demonstrating its capabilities and recent observational results in millimeter astronomy.
Findings
NIKA is the most advanced in-field KID-based instrument.
Successful simultaneous observations at 2 mm and 1.4 mm wavelengths.
Demonstrated effective multiplexing and readout of large KID arrays.
Abstract
We present recent developments in Kinetic Inductance Detectors (KID) for large arrays of detectors. The main application is ground-based millimeter wave astronomy. We focus in particular, as a case study, on our own experiment: NIKA (N\'eel IRAM KID Arrays). NIKA is today the best in-the-field experiment using KID-based instruments, and consists of a dual-band imaging system designed for the IRAM 30 meter telescope at Pico Veleta. We describe in this article, after a general context introduction, the KID working principle and the readout electronics, crucial to take advantage of the intrinsic KID multiplexability. We conclude with a small subset of the astronomical sources observed simultaneously at 2 mm and 1.4 mm by NIKA during the last run, held in October 2010. Nous d\'ecrivons les r\'ecents d\'eveloppements concernant les grandes matrices de d\'etecteurs \`a inductance…
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