Development of basic theory and application of cryogenic X-ray spectrometer in light sources and X-ray satellite

被引:4
作者
Zhang Shuo [1 ]
Cui Wei [2 ]
Jin Hai [2 ]
Chen Liu-Biao [3 ]
Wang Jun-Jie [3 ]
Wu Wen-Tao [4 ]
Wu Bing-Jun [4 ]
Xia Jing-Kai [1 ]
Song Yan-Ru [1 ]
Yang Jin-Ping [1 ]
Weng Tsu-Chien [1 ]
Liu Zhi [1 ,4 ]
机构
[1] Shanghai Tech Univ, Ctr Transformat Sci, Shanghai 201210, Peoples R China
[2] Tsinghua Univ, Dept Astron, Beijing 201203, Peoples R China
[3] Chinese Acad Sci, Tech Inst Phys & Chem, Beijing 100190, Peoples R China
[4] Chinese Acad Sci, Shanghai Inst Microsyst & Informat Technol, Shanghai 200050, Peoples R China
来源
ACTA PHYSICA SINICA | 2021年 / 70卷 / 18期
基金
中国国家自然科学基金;
关键词
synchrotron radiation instrumentation; X-ray telescopes; X-ray spectrometers; cryogenic detectors; EMISSION SPECTROSCOPY; SOUNDING ROCKET; RESOLUTION; MICROCALORIMETER; DETECTORS; CALORIMETER; PERFORMANCE; SYSTEM; STJ; ELECTRONICS;
D O I
10.7498/aps.70.20210350
中图分类号
O4 [物理学];
学科分类号
0702 ;
摘要
Cryogenic X-ray spectrometers are advantageous in the spectrum research for weak and diffusive X-ray source due to their high energy resolution, high detection efficiency, low noise level and non-dead-layer properties. Their energy resolution independent of the incident X-ray direction also makes them competitive in diffusion source detection. The requirements for X-ray spectrometers have heightened in recent years with the rapid development of large scientific facilities where X-ray detection is demanded, including beamline endstations in synchrotron and X-ray free electron laser facilities, accelerators, highly charged ion traps, X-ray space satellites, etc. Because of their excellent performances, cryogenic X-ray detectors are introduced into these facilities, typical examples of which are APS, NSLS, LCLS-II, Spring-8, SSNL, ATHENA, HUBS. In this paper, we review the cryogenic X-ray spectrometers, from the working principle and classification, system structure, major performance characteristics to the research status and trend in large scientific facilities in the world.
引用
收藏
页数:32
相关论文
共 121 条
[1]   Spatially modulated 'Mottness' in La2-xBaxCuO4 [J].
Abbamonte, P ;
Rusydi, A ;
Smadici, S ;
Gu, GD ;
Sawatzky, GA ;
Feng, DL .
NATURE PHYSICS, 2005, 1 (03) :155-158
[2]   A structural probe of the doped holes in cuprate superconductors [J].
Abbamonte, P ;
Venema, L ;
Rusydi, A ;
Sawatzky, GA ;
Logvenov, G ;
Bozovic, I .
SCIENCE, 2002, 297 (5581) :581-584
[3]   First Operation of TES Microcalorimeters in Space with the Micro-X Sounding Rocket [J].
Adams, J. S. ;
Baker, R. ;
Bandler, S. R. ;
Bastidon, N. ;
Danowski, M. E. ;
Doriese, W. B. ;
Eckart, M. E. ;
Figueroa-Feliciano, E. ;
Goldfinger, D. C. ;
Heine, S. N. T. ;
Hilton, G. C. ;
Hubbard, A. J. F. ;
Kelley, R. L. ;
Kilbourne, C. A. ;
Manzagol-Harwood, R. E. ;
McCammon, D. ;
Okajima, T. ;
Porter, F. S. ;
Reintsema, C. D. ;
Serlemitsos, P. ;
Smith, S. J. ;
Ullom, J. N. ;
Wikus, P. .
JOURNAL OF LOW TEMPERATURE PHYSICS, 2020, 199 (3-4) :1062-1071
[4]   The quiescent intracluster medium in the core of the Perseus cluster [J].
Aharonian, Felix ;
Akamatsu, Hiroki ;
Akimoto, Fumie ;
Allen, Steven W. ;
Anabuki, Naohisa ;
Angelini, Lorella ;
Arnaud, Keith ;
Audard, Marc ;
Awaki, Hisamitsu ;
Axelsson, Magnus ;
Bamba, Aya ;
Bautz, Marshall ;
Blandford, Roger ;
Brenneman, Laura ;
Brown, Gregory V. ;
Bulbul, Esra ;
Cackett, Edward ;
Chernyakova, Maria ;
Chiao, Meng ;
Coppi, Paolo ;
Costantini, Elisa ;
de Plaa, Jelle ;
den Herder, Jan-Willem ;
Done, Chris ;
Dotani, Tadayasu ;
Ebisawa, Ken ;
Eckart, Megan ;
Enoto, Teruaki ;
Ezoe, Yuichiro ;
Fabian, Andrew C. ;
Ferrigno, Carlo ;
Foster, Adam ;
Fujimoto, Ryuichi ;
Fukazawa, Yasushi ;
Furuzawa, Akihiro ;
Galeazzi, Massimiliano ;
Gallo, Luigi ;
Gandhi, Poshak ;
Giustini, Margherita ;
Goldwurm, Andrea ;
Gu, Liyi ;
Guainazzi, Matteo ;
Haba, Yoshito ;
Hagino, Kouichi ;
Hamaguchi, Kenji ;
Harrus, Ilana ;
Hatsukade, Isamu ;
Hayashi, Katsuhiro ;
Hayashi, Takayuki ;
Hayashida, Kiyoshi .
NATURE, 2016, 535 (7610) :117-+
[5]  
Alpert B, 2015, EUR PHYS J C, V75, DOI 10.1140/epjc/s10052-015-3329-5
[6]  
Bandler SR, 2019, J ASTRON TELESC INST, V5, DOI 10.1117/1.JATIS.5.2.021017
[7]   Athena: ESA's X-ray observatory for the late 2020s [J].
Barcons, X. ;
Barret, D. ;
Decourchelle, A. ;
den Herder, J. W. ;
Fabian, A. C. ;
Matsumoto, H. ;
Lumb, D. ;
Nandra, K. ;
Piro, L. ;
Smith, R. K. ;
Willingale, R. .
ASTRONOMISCHE NACHRICHTEN, 2017, 338 (2-3) :153-158
[8]   The Athena X-ray Integral Field Unit (X-IFU) [J].
Barret, Didier ;
Thien Lam Trong ;
den Herde, Jan-Willem ;
Piro, Luigi ;
Barcons, Xavier ;
Huovelin, Juhani ;
Kelley, Richard ;
Miguel Mas-Hesse, J. ;
Mitsuda, Kazuhisa ;
Paltani, Stephane ;
Rauw, Gregor ;
Rozanska, Agata ;
Wilms, Joern ;
Barbera, Marco ;
Bozzo, Enrico ;
Teresa Ceballos, Maria ;
Charles, Ivan ;
Decourchelle, Anne ;
den Hartog, Roland ;
Duval, Jean-Marc ;
Fiore, Fabrizio ;
Gatti, Flavio ;
Goldwurm, Andrea ;
Jackson, Brian ;
Jonker, Peter ;
Kilbourne, Caroline ;
Macculi, Claudio ;
Mendez, Mariano ;
Molendi, Silvano ;
Orleanski, Piotr ;
Pajot, Francois ;
Pointecouteau, Etienne ;
Porter, Frederick ;
Pratt, Gabriel W. ;
Prele, Damien ;
Ravera, Laurent ;
Renotte, Etienne ;
Schaye, Joop ;
Shinozaki, Keisuke ;
Valenziano, Luca ;
Vink, Jacco ;
Webb, Natalie ;
Yamasaki, Noriko ;
Delcelier-Douchin, Francoise ;
Le Du, Michel ;
Mesnager, Jean-Michel ;
Pradines, Alice ;
Branduardi-Raymont, Graziella ;
Dadina, Mauro ;
Finoguenov, Alexis .
SPACE TELESCOPES AND INSTRUMENTATION 2016: ULTRAVIOLET TO GAMMA RAY, 2016, 9905
[9]   Characterization of an Nb/Al/AlOx/Al/Nb superconducting tunnel junction detector with a very high spatial resolution in the soft X-ray range [J].
Bechstein, S ;
Beckhoff, B ;
Fliegauf, R ;
Weser, J ;
Ulm, G .
SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY, 2004, 59 (02) :215-221
[10]   Chemical dependence of interatomic X-ray transition energies and intensities -: a study of Mn Kβ" and Kβ2,5 spectra [J].
Bergmann, U ;
Horne, CR ;
Collins, TJ ;
Workman, JM ;
Cramer, SP .
CHEMICAL PHYSICS LETTERS, 1999, 302 (1-2) :119-124
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