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Kvantovaya Elektronika, 2006, Volume 36, Number 12, Pages 1168–1175 (Mi qe13272)  

This article is cited in 8 scientific papers (total in 8 papers)

Radiation detectors

Magnetic calorimeter with a SQUID for detecting weak radiations and recording the ultralow energy release

A. I. Golovashkina, G. N. Izmailovb, L. N. Zherikhinaa, G. V. Kuleshovaa, A. M. Tskhovrebova

a P. N. Lebedev Physical Institute of the Russian Academy of Sciences, Moscow
b Moscow Aviation Institute

Abstract: The scheme of a magnetic calorimeter for recording extremely low energy releases is developed. The calorimeter is activated by the method of adiabatic demagnetisation and its response to the energy release is measured with a superconducting quantum interference device (SQUID). The estimate of the ultimate sensitivity of the calorimeter with the SQUID demonstrates the possibilities of its application for detecting ultralow radiation intensity, recording single X-ray quanta in the proportional regime and other events with ultralow energy releases. The scheme of the calorimeter with the SQUID on matter waves in superfluid 4He is proposed.

Full text: PDF file (194 kB)

English version:
Quantum Electronics, 2006, 36:12, 1168–1175

Bibliographic databases:

PACS: 07.60.Dq, 03.75.-b
Received: 08.02.2006
Revised: 21.07.2006

Citation: A. I. Golovashkin, G. N. Izmailov, L. N. Zherikhina, G. V. Kuleshova, A. M. Tskhovrebov, “Magnetic calorimeter with a SQUID for detecting weak radiations and recording the ultralow energy release”, Kvantovaya Elektronika, 36:12 (2006), 1168–1175 [Quantum Electron., 36:12 (2006), 1168–1175]

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  • http://mi.mathnet.ru/eng/qe/v36/i12/p1168

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    Citing articles on Google Scholar: Russian citations, English citations
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    This publication is cited in the following articles:
    1. A. I. Golovashkin, G. N. Izmaïlov, G. V. Kuleshova, T. Q. Khánh, A. M. Tskhovrebov, L. N. Zherikhina, Eur Phys J B, 58:3 (2007), 243  crossref  adsnasa  isi  scopus
    2. A. I. Golovashkin, G. A. Gusev, L. N. Zherikhina, B. N. Lomonosov, V. A. Tsarev, A. M. Tskhovrebov, Bull Lebedev Phys Inst, 34:10 (2007), 296  crossref  adsnasa
    3. A. I. Golovashkin, L. N. Zherikhina, A. M. Tskhovrebov, G. N. Izmailov, V. V. Ozolin, Sov Phys JETP, 111:2 (2010), 332  crossref  adsnasa  isi  scopus
    4. A. I. Golovashkin, G. N. Izmaïlov, V. V. Ozolin, A. M. Tskhovrebov, L. N. Zherikhina, Gravit Cosmol, 16:1 (2010), 78  crossref  adsnasa  isi  scopus
    5. Dresvyannikov M.A., Karuzskii A.L., Perestoronin A.V., Tskhovrebov A.M., Zherikhina L.N., International Conference on Micro- and Nano-Electronics 2014, Proceedings of Spie, 9440, ed. Orlikovsky A., Spie-Int Soc Optical Engineering, 2014  crossref  isi  scopus
    6. L. N. Zherikhina, G. N. Izmailov, A. M. Tskhovrebov, Meas Tech, 58:4 (2015), 431  crossref  isi  elib
    7. Zherikhina L.N., Izmailov G.N., Tskhovrebov A.M., Meas. Tech., 59:5 (2016), 460–467  crossref  isi  scopus
    8. Dresvyannikov M.A., Izmailov G.N., Ozolin G.G., Zherikhina L.N., Tshovrebov A.M., J. Russ. Laser Res., 37:3 (2016), 244–249  crossref  isi  scopus
  • Квантовая электроника Quantum Electronics
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