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According to the requirements for the performance of analyzers in soft x-ray regime of synchrotron radiation, the qualities of various crystals often used in soft x-ray range are investigated. We find that crystals KTP (KTiOPO4)(011) crystal is an ideal one among large d-spacing crystals. We propose an experimental method to measure diffraction efficiencies of crystals with synchrotron radiation source. In particular, we find that the diffraction efficiency is closely related to the source emittance. The lattice constant and diffraction efficiencies of KTP(011)crystal are also presented in this paper.
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Keywords:
- synchrotron radiation /
- KTP(011) crystal /
- diffraction efficiency /
- source emittance
[1] Sang M, Xue T, Yu J, Ni W J, Yu Y X, Li S C 2003 Acta Photon. Sin. 32 1286 (in Chinese) [桑 梅、薛 挺、于 建、倪文俊、于云翔、李世忱 2003 光子学报 32 1286]
[2] Takata Y, Shigemasa E, Kosugi N 2001 J. Synchrotron Rad. 8 351
[3] Hiraya A, Horigome T, Okada N, Mizutani N, Sakai K, Matsudo O, Hasumoto M 1992 Rev. Sci. Instrum. 63 1264
[4] Yang P, Zhao J Y, Jiang J H 1993 Acta Phys. Sin. 42 437 (in Chinese) [杨 平、赵际勇、蒋建华 1993 42 437]
[5] Wong J, Roth W L, Batterman B W, Berman L E, Pease D M, Heald S, Barbee T 1982 Nucl. Instrum. Methods 195 133
[6] van der Laan G, Goedkoop J B, Fuggle J C, Bruijn M P, Verhoeven J, van der Wiel M J, MacDowell A A, West J B, Munro I H 1987 Nucl. Instrum. Methods Phys. Res. A 255 592
[7] Xiong X C, Zhong X X, Duan S G, Xiao S L, Yang G H, Gao J 2004 Acta Photon. Sin. 33 73 (in Chinese) [熊先才、钟先信、段绍光、肖沙里、杨国洪、高 洁 2004 光子学报 33 73]
[8] Pikuz T A, Faenov A Y, Foerster E, Wolf J, Wehrhan O, Heinisch J, Hoelzer G, Vollbrecht M, Pikuz S A, Romanova V M, Shelkovenko T A 1995 SPIE 2515 46 8
[9] Hiraya A, Matsuda K, Yang H, Watanabe M 1995 Rev. Sci. Instrum. 66 2102
[10] Wong J, Tanaka T, Rowen M, Schfers F, Müller B R, Rek Z U 1999 J.Synchrotron Rad. 6 1086
[11] Tanaka T, Otani S, Ishizawa Y 1985 J. Cryst. Growth 73 31
[12] Kitamuraa M, Yoshikawaa H, Mochizuki T, Vlaicu A M, Nisawa A, Yagi N, Okui M, Kimura M, Tanaka T, Fukushima S 2003 Nucl. Instrum. Methods Phys. Res. A 497 550
[13] Kitamuraa M, Yoshikawaa H, Tanaka T, Mochizuki T, Vlaicu A M, Nisawa A, Yagi N, Okui M, Kimura M, Fukushima S 2003 J. Synchrotron Rad. 10 310
[14] Rogalev A, Goulon J 2001 Lecture Notes in Physics 565 60
[15] Dong S Q, Li L Q, Liu P, Dong Y H, Chen X M 2008 Chin. Phys. B 17 4574
[16] Zhao J, Cui M Q, Zhao Y D, Tian Y L, Zhao K J, Zheng L, Zhu J, Ma C Y, Sun L J, Han Y 2005 High Energy Phys. Nucl. Phys. 29 1205 (in Chinese) [赵 佳、崔明启、赵屹东、田玉莲、周克瑾、郑 雷、朱 杰、马陈燕、陈 凯、孙立娟、韩 勇 2005 高能物理与核物理 29 1205]
[17] Yi R Q, Yang G H, Cui Y L, Du H B, Wei M X, Dong J J, Zhao Y D, Cui M Q, Zheng L 2006 Acta Phys. Sin. 55 6287 (in Chinese) [易荣清、杨国洪、崔延莉、杜华冰、韦敏习、董建军、赵屹东、崔明启、郑 雷 2006 55 6287]
[18] Zhao J, Cui M Q, Zhao Y D 2006 High Energy Phys. Nucl. Phys. 30 359 (in Chinese) [赵 佳、崔明启、赵屹东 2006 高能物理与核物理 30 359]
[19] Sanchez del Rio M, Mathon O 2004 SPIE 5536 157
[20] Lin X Y, Li Y D, Sun T X, Pan Q L 2010 Chin. Phys. B 19 070205
[21] Cui C W, Cui M Q, Yi R Q 1998 High Energy Phys. Nucl. Phys. 22 180 (in Chinese) [崔聪悟、崔明启、易荣清 1998 高能物理与核物理 22 180]
[22] Zhao J, Cui M Q, Zhao Y D, Zhao K J, Zheng L, Zhu J, Sun L J, Chen K, Ma C Y 2005 Nuclear Techniques 28 583 (in Chinese) [赵 佳、崔明启、赵屹东、周克瑾、郑 雷、朱 杰、孙立娟、陈 凯、马陈燕 2005 核技术 28 583]
[23] Zachariasen W H 1945 The Theory of X-ray Diffraction in Crystal (New York: Wiley) p140
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[1] Sang M, Xue T, Yu J, Ni W J, Yu Y X, Li S C 2003 Acta Photon. Sin. 32 1286 (in Chinese) [桑 梅、薛 挺、于 建、倪文俊、于云翔、李世忱 2003 光子学报 32 1286]
[2] Takata Y, Shigemasa E, Kosugi N 2001 J. Synchrotron Rad. 8 351
[3] Hiraya A, Horigome T, Okada N, Mizutani N, Sakai K, Matsudo O, Hasumoto M 1992 Rev. Sci. Instrum. 63 1264
[4] Yang P, Zhao J Y, Jiang J H 1993 Acta Phys. Sin. 42 437 (in Chinese) [杨 平、赵际勇、蒋建华 1993 42 437]
[5] Wong J, Roth W L, Batterman B W, Berman L E, Pease D M, Heald S, Barbee T 1982 Nucl. Instrum. Methods 195 133
[6] van der Laan G, Goedkoop J B, Fuggle J C, Bruijn M P, Verhoeven J, van der Wiel M J, MacDowell A A, West J B, Munro I H 1987 Nucl. Instrum. Methods Phys. Res. A 255 592
[7] Xiong X C, Zhong X X, Duan S G, Xiao S L, Yang G H, Gao J 2004 Acta Photon. Sin. 33 73 (in Chinese) [熊先才、钟先信、段绍光、肖沙里、杨国洪、高 洁 2004 光子学报 33 73]
[8] Pikuz T A, Faenov A Y, Foerster E, Wolf J, Wehrhan O, Heinisch J, Hoelzer G, Vollbrecht M, Pikuz S A, Romanova V M, Shelkovenko T A 1995 SPIE 2515 46 8
[9] Hiraya A, Matsuda K, Yang H, Watanabe M 1995 Rev. Sci. Instrum. 66 2102
[10] Wong J, Tanaka T, Rowen M, Schfers F, Müller B R, Rek Z U 1999 J.Synchrotron Rad. 6 1086
[11] Tanaka T, Otani S, Ishizawa Y 1985 J. Cryst. Growth 73 31
[12] Kitamuraa M, Yoshikawaa H, Mochizuki T, Vlaicu A M, Nisawa A, Yagi N, Okui M, Kimura M, Tanaka T, Fukushima S 2003 Nucl. Instrum. Methods Phys. Res. A 497 550
[13] Kitamuraa M, Yoshikawaa H, Tanaka T, Mochizuki T, Vlaicu A M, Nisawa A, Yagi N, Okui M, Kimura M, Fukushima S 2003 J. Synchrotron Rad. 10 310
[14] Rogalev A, Goulon J 2001 Lecture Notes in Physics 565 60
[15] Dong S Q, Li L Q, Liu P, Dong Y H, Chen X M 2008 Chin. Phys. B 17 4574
[16] Zhao J, Cui M Q, Zhao Y D, Tian Y L, Zhao K J, Zheng L, Zhu J, Ma C Y, Sun L J, Han Y 2005 High Energy Phys. Nucl. Phys. 29 1205 (in Chinese) [赵 佳、崔明启、赵屹东、田玉莲、周克瑾、郑 雷、朱 杰、马陈燕、陈 凯、孙立娟、韩 勇 2005 高能物理与核物理 29 1205]
[17] Yi R Q, Yang G H, Cui Y L, Du H B, Wei M X, Dong J J, Zhao Y D, Cui M Q, Zheng L 2006 Acta Phys. Sin. 55 6287 (in Chinese) [易荣清、杨国洪、崔延莉、杜华冰、韦敏习、董建军、赵屹东、崔明启、郑 雷 2006 55 6287]
[18] Zhao J, Cui M Q, Zhao Y D 2006 High Energy Phys. Nucl. Phys. 30 359 (in Chinese) [赵 佳、崔明启、赵屹东 2006 高能物理与核物理 30 359]
[19] Sanchez del Rio M, Mathon O 2004 SPIE 5536 157
[20] Lin X Y, Li Y D, Sun T X, Pan Q L 2010 Chin. Phys. B 19 070205
[21] Cui C W, Cui M Q, Yi R Q 1998 High Energy Phys. Nucl. Phys. 22 180 (in Chinese) [崔聪悟、崔明启、易荣清 1998 高能物理与核物理 22 180]
[22] Zhao J, Cui M Q, Zhao Y D, Zhao K J, Zheng L, Zhu J, Sun L J, Chen K, Ma C Y 2005 Nuclear Techniques 28 583 (in Chinese) [赵 佳、崔明启、赵屹东、周克瑾、郑 雷、朱 杰、孙立娟、陈 凯、马陈燕 2005 核技术 28 583]
[23] Zachariasen W H 1945 The Theory of X-ray Diffraction in Crystal (New York: Wiley) p140
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