超伝導転移端センサーによる光子検出 高感度・高速検出器開発の現状と今後

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Published in低温工学 Vol. 59; no. 1; pp. 27 - 33
Main Authors 三津谷, 有貴, 高橋, 浩之
Format Journal Article
LanguageJapanese
Published 公益社団法人 低温工学・超電導学会 (旧 社団法人 低温工学協会) 20.01.2024
Subjects
electrothermal feedback
infrared photons
iridium
photon number detection
single photon counting
Online AccessGet full text
ISSN0389-2441
1880-0408
DOI10.2221/jcsj.59.27

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Author 高橋, 浩之
三津谷, 有貴
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References 12)A. Lamas-Linares, et al., “Nanosecond-scale timing jitter for single photon detection in transition edge sensors,” Applied Physics Letters 102,(2013)231117
11)R. Kobayashi, K. Hattori, S. Inoue, D. Fukuda, “Development of a fast response titanium-gold bilayer optical TES with an optical fiber selfalignment structure,” IEEE Trans. Appl. Supercond. 29, 5(2019)2101105
10)N. Moeckel, M. Galeazzi, M. Lindeman and C. K. Stahle: “A constant temperature TES micro-calorimeter with an external electronic feedback system,” Low Temperature Detectors, vol. 605, (2002)111-114
15)Q-Y. Zhao, A. N. McCaughan, A. E. Dane, K. K. Bergrren, T. Ortlepp, Supercond. Sci. Technol. 30(2017)044002
2)Y. Mitsuya, et al., “Photon number resolution with an iridium optical transition edge sensor at a telecommunication wavelength,” J. Low. Temp. Phys. 210(2023)498-505. Springer Nature
3)A. E. Lita, et al., “Development of superconducting single-photon and photon-number resolving detectors for quantum applications,” J. Lightwave Technology, 40, 23,(2022)7578-7597
8)B. Calkins, A. E. Lita, A. E. Fox. S. W. Nam, “Faster recovery time of a hot-electron transition-edge sensor by use of normal metal heatsinks,” Applied Physics Letters, 99, (2011)241114
9)B. Cabrera, “Introduction to TES physics,” J. Low. Temp. Phys. 151(2008)82-93
13)K. Hattori, T. Konno, Y. Miura, S. Takasu, D. Fukuda, “An optical transition-edge sensor with high energy resolution,” Superconductor Science and Technology, 35, 9(2022)095002
5)M. Frank, et al.: “A calorimetric particle detector using an iridium superconducting phase transition thermometer,” Nuclear Instruments and Methods in Physics Research A 345(1994)367-378
1)R. Hummatov, A. E. Lita, et al., “Fast transition-edge sensors suitable for photonic quantum computing,” J. Appl. Phys. 133,(2023)234502
14)S. Marnieros, et al., “High impedance TES bolometers for Edelweiss,” J. Low. Temp. Phys. 211(2023)214-219
7)C. Portesi, E. Taralli, L. Lolli, M. Rajteri, E. Monticone, “Fabrication and characterization of fast TESs with small area for single photon counting,” IEEE Trans. Appl. Supercond. 25, 3(2015)2101004
4)J. C. Mather: “Bolometer noise: nonequilibrium theory,” Applied Optics Vol.21, No.6, (1982)1125-1129
6)K. D. Irwin: “An application of electrothermal feedback for high resolution cryogenic particle detection,” Appl. Phys. Lett., Vol.66, No.15, 10(1995) J. IEE Japan 117(1997)1998-2000
References_xml – reference: 11)R. Kobayashi, K. Hattori, S. Inoue, D. Fukuda, “Development of a fast response titanium-gold bilayer optical TES with an optical fiber selfalignment structure,” IEEE Trans. Appl. Supercond. 29, 5(2019)2101105
– reference: 3)A. E. Lita, et al., “Development of superconducting single-photon and photon-number resolving detectors for quantum applications,” J. Lightwave Technology, 40, 23,(2022)7578-7597
– reference: 14)S. Marnieros, et al., “High impedance TES bolometers for Edelweiss,” J. Low. Temp. Phys. 211(2023)214-219
– reference: 7)C. Portesi, E. Taralli, L. Lolli, M. Rajteri, E. Monticone, “Fabrication and characterization of fast TESs with small area for single photon counting,” IEEE Trans. Appl. Supercond. 25, 3(2015)2101004
– reference: 13)K. Hattori, T. Konno, Y. Miura, S. Takasu, D. Fukuda, “An optical transition-edge sensor with high energy resolution,” Superconductor Science and Technology, 35, 9(2022)095002
– reference: 4)J. C. Mather: “Bolometer noise: nonequilibrium theory,” Applied Optics Vol.21, No.6, (1982)1125-1129
– reference: 6)K. D. Irwin: “An application of electrothermal feedback for high resolution cryogenic particle detection,” Appl. Phys. Lett., Vol.66, No.15, 10(1995) J. IEE Japan 117(1997)1998-2000
– reference: 9)B. Cabrera, “Introduction to TES physics,” J. Low. Temp. Phys. 151(2008)82-93
– reference: 10)N. Moeckel, M. Galeazzi, M. Lindeman and C. K. Stahle: “A constant temperature TES micro-calorimeter with an external electronic feedback system,” Low Temperature Detectors, vol. 605, (2002)111-114
– reference: 1)R. Hummatov, A. E. Lita, et al., “Fast transition-edge sensors suitable for photonic quantum computing,” J. Appl. Phys. 133,(2023)234502
– reference: 5)M. Frank, et al.: “A calorimetric particle detector using an iridium superconducting phase transition thermometer,” Nuclear Instruments and Methods in Physics Research A 345(1994)367-378
– reference: 15)Q-Y. Zhao, A. N. McCaughan, A. E. Dane, K. K. Bergrren, T. Ortlepp, Supercond. Sci. Technol. 30(2017)044002
– reference: 2)Y. Mitsuya, et al., “Photon number resolution with an iridium optical transition edge sensor at a telecommunication wavelength,” J. Low. Temp. Phys. 210(2023)498-505. Springer Nature
– reference: 8)B. Calkins, A. E. Lita, A. E. Fox. S. W. Nam, “Faster recovery time of a hot-electron transition-edge sensor by use of normal metal heatsinks,” Applied Physics Letters, 99, (2011)241114
– reference: 12)A. Lamas-Linares, et al., “Nanosecond-scale timing jitter for single photon detection in transition edge sensors,” Applied Physics Letters 102,(2013)231117
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SubjectTerms electrothermal feedback
infrared photons
iridium
photon number detection
single photon counting
Subtitle 高感度・高速検出器開発の現状と今後
Title 超伝導転移端センサーによる光子検出
URI https://www.jstage.jst.go.jp/article/jcsj/59/1/59_27/_article/-char/ja
Volume 59
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