- Source: Kinetic inductance detector
The kinetic inductance detector (KID) — also known as a microwave kinetic inductance detector (MKID) — is a type of superconducting photon detector capable of counting single photons whilst simultaneously measuring their energy and arrival time to high precision. They were first developed by scientists at the California Institute of Technology and the Jet Propulsion Laboratory in 2003. These devices operate at cryogenic temperatures, typically below 1 kelvin. They are being developed for high-sensitivity astronomical detection for frequencies ranging from the far-infrared to X-rays.
Principle of operation
Photons incident on a strip of superconducting material break Cooper pairs and create excess quasiparticles. The kinetic inductance of the superconducting strip is inversely proportional to the density of Cooper pairs, and thus the kinetic inductance increases upon photon absorption. This inductance is combined with a capacitor to form a microwave resonator whose resonant frequency changes with the absorption of photons. This resonator-based readout is useful for developing large-format detector arrays, as each KID can be addressed by a single microwave tone and many detectors can be measured using a single broadband microwave channel, a technique known as frequency-division multiplexing.
Applications
KIDs are being developed for a range of astronomy applications, including millimeter and submillimeter wavelength detection
at the Caltech Submillimeter Observatory, the Atacama Pathfinder Experiment (APEX) on the Llano de Chajnantor Observatory, the CCAT Observatory, the Large Millimeter Telescope, and the IRAM 30-m telescope. They are also being developed for optical and near-infrared detection at the Palomar Observatory. KIDs have also flown on two balloon-borne telescopes, OLIMPO in 2018 and BLAST-TNG in 2020. They are also foreseen for the spectrometers of the planned PRobe far-Infrared Mission for Astrophysics (PRIMA) telescope, which NASA selected as one of two potential future space telescopes. KIDs have also gained popularity as a more compact, lower cost, and less complex alternative to transition edge sensors.
See also
Kinetic inductance
Cryogenic particle detectors
References
External links
SRON website on kinetic inductance detectors
Research group of Prof. B. Mazin at UC Santa Barbara Archived 2010-12-03 at the Wayback Machine
YouTube video on kinetic inductance from MIT
Champlin, K.S.; Armstrong, D.B.; Gunderson, P.D. (1964). "Charge carrier inertia in semiconductors". Proceedings of the IEEE. 52 (6). Institute of Electrical and Electronics Engineers (IEEE): 677–685. doi:10.1109/proc.1964.3049. ISSN 0018-9219.
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