Irradiation Tests of Superconducting Detectors and Comparison with Simulations

Irradiation Tests of Superconducting Detectors and Comparison with Simulations

For the future satellite mission at the second sun–earth Lagrangian point (L2), we need to mitigate phonon propagation created by cosmic rays to superconducting detectors. We simulate phonon propagation in silicon substrate and show that putting a metal layer on the substrate or making hole in the s...

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Veröffentlicht in:Journal of low temperature physics 2020-04, Vol.199 (1-2), p.118-129
Hauptverfasser: Minami, Y., Akiba, Y., Beckman, S., Hazumi, M., Kuo, C., Kurinsky, N. A., Kutsuma, H., Lee, A. T., Mima, S., Raum, C. R., Sasse, T., Stever, S. L., Suzuki, A., Westbrook, B.
Format: Artikel
Sprache:eng
Schlagworte:
Bolometers
Characterization and Evaluation of Materials
Charged particles
Condensed Matter Physics
Cosmic rays
Detectors
Inductance
Irradiation
Lagrangian equilibrium points
Low temperature physics
Magnetic Materials
Magnetism
OTHER INSTRUMENTATION
Phonons
Physics
Physics and Astronomy
Propagation
Sensors
Silicon substrates
Superconductivity
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Zusammenfassung:For the future satellite mission at the second sun–earth Lagrangian point (L2), we need to mitigate phonon propagation created by cosmic rays to superconducting detectors. We simulate phonon propagation in silicon substrate and show that putting a metal layer on the substrate or making hole in the substrate reduces the propagation. We also show a function which shows the response of a TES bolometer on a substrate. To validate these theoretical expectations, we make irradiation tests using two types of superconducting detectors: transition edge sensor bolometers and kinetic inductance detectors. From the tests, we show that putting metal can reduce correlations between detectors and number of hit events from charged particles.
ISSN:0022-2291
1573-7357
DOI:10.1007/s10909-020-02393-7