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中远红外非线性光学晶体研究进展

贾宁 王善朋 陶绪堂

中远红外非线性光学晶体研究进展

贾宁, 王善朋, 陶绪堂
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  • 3–5 μm和8–12 μm波段中远红外激光,在国防和民用领域均具有广泛的应用.作为全固态激光频率转换系统的核心部件,非线性光学晶体需要不断地优化和发展.本文从红外非线性光学晶体材料组成角度出发,总结了几种具有重大应用前景的磷族化合物(ZnGeP2,CdSiP2)、硫属化合物(CdSe,GaSe,LiInS2系列,BaGa4S7系列)以及准位相匹配晶体(OP-GaAs,OP-GaP)等中远红外波段非线性光学晶体的研究进展.
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    [47]

    Tupitsyn E, Bhattacharya P, Rowe E, Matei L, Cui Y, Buliga V, Groza M, Wiggins B, Burger A, Stowe A 2014 J. Cryst. Growth 393 23

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  • [1]

    Schunemann P G, Zawilski K T, Pomeranz L A, Creeden D J, Budni P A 2016 J. Opt. Soc. Am. B 33 D36

    [2]

    Lan H, Liang F, Jiang X, Zhang C, Yu H, Lin Z, Zhang H, Wang J, Wu Y 2018 J. Am. Chem. Soc. 140 4684

    [3]

    Liu T, Qin J, Zhang G, Zhu T, Niu F, Wu Y, Chen C 2008 Appl. Phys. Lett. 93 091102

    [4]

    Zhang G, Qin J, Liu T, Li Y, Wu Y, Chen C 2009 Appl. Phys. Lett. 95 261104

    [5]

    Ye N, Tu C, Long X, Hong M 2010 Cryst. Growth Des. 10 4672

    [6]

    Liang F, Kang L, Lin Z, Wu Y 2017 Cryst. Growth Des. 17 2254

    [7]

    Isaenko L I, Yelisseyev A P 2016 Semicond. Sci. Technol. 31 123001

    [8]

    Wu H, Wang Z, Ni Y, Mao M, Huang C, Cheng X 2012 J. Cryst. Growth 353 158

    [9]

    Schunemann P G, Pollak T M 1997 J. Cryst. Growth 174 272

    [10]

    Zhang G, Tao X, Ruan H, Wang S, Shi Q 2012 J. Cryst. Growth 340 197

    [11]

    Isaenko L, Yelisseyev A, Lobanov S, Petrov V, Rotermund F, Zondy J J, Knippels G H M 2001 Mater. Sci. Semicond. Processing 4 665

    [12]

    Petrov V, Zondy J J, Bidault O, Isaenko L, Vedenyapin V, Yelisseyev A. Chen W D, Tyazhev A, Lobanov S, Marchev G, Kolker D 2010 J. Opt. Soc. Am. B 27 1902

    [13]

    Guo Y F, Zhou Y Q, Lin X S, Chen W D, Ye N 2014 Opt. Mater. 36 2007

    [14]

    Yao J, Yin W, Feng K, Li X, Mei D, Lu Q, Ni Y, Zhang Z, Hu Z, Wu Y 2012 J. Cryst. Growth 346 1

    [15]

    Li G, Chu Y, Zhou Z 2018 Chem. Mater. 30 602

    [16]

    Hanna D C, Rampal V V, Smith R C 1973 Opt. Commun. 8 151

    [17]

    Boyd G, Kasper H, McFee J 1971 IEEE J. Quantum Electron. 7 563

    [18]

    Singh N B, Hopkins R H, Feichtner J D 1986 J. Mater. Sci. 21 837

    [19]

    Buehler E, Wernick J H, Wiley J D 1973 J. Electron. Mater. 2 445

    [20]

    Bliss D F, Harris M, Horrigan J, Higgins W M, Armington A F, Adamski J A 1994 J. Cryst. Growth 137 145

    [21]

    Zhang G, Tao X, Wang S, Shi Q, Ruan H, Chen L 2012 J. Cryst. Growth 352 67

    [22]

    Zhang G, Tao X, Wang S, Liu G, Shi Q, Jiang M 2011 J. Cryst. Growth 318 717

    [23]

    Lei Z, Okunev A O, Zhu C, Verozubova G A, Ma T, Yang A C 2016 J. Cryst. Growth 450 34

    [24]

    Zhong K, Li J S, Xu D G, Wang J L, Wang Z, Wang P, Yao J Q 2010 Optoelectron. Lett. 6 179

    [25]

    Zawilski K T, Schunemann P G, Setzler S D, Pollak T M 2008 J. Cryst. Growth 310 1891

    [26]

    Lei Z, Zhu C, Xu C, Yao B, Yang C 2014 J. Cryst. Growth 389 23

    [27]

    Haakestad M W, Arisholm G, Lippert E, Nicolas S, Rustad G, Stenersen K 2008 Opt. Express 16 14263

    [28]

    Dergachev A, Armstrong D, Smith A, Drake T, Dubois M 2007 Opt. Express 15 14404

    [29]

    Petrov V, Rotermund F, Noack F, Schunemann P 1999 Opt. Lett. 24 414

    [30]

    Schunemann P G 2007 Proc. SPIE 6455 64550R

    [31]

    Hemming A, Richards J, Davidson A, Carmody N, Bennetts S, Simakov N, Haub J 2013 Opt. Express 21 10062

    [32]

    Qian C P, Shen Y J, Yao B Q, Duan X M, Ju Y L, Wang Y Z 2016 Conference on Lasers and Electro-Optics (CLEO) San Jose, California USA, June 5--10, 2016 p1

    [33]

    Kumar S C, Zawilski K T, Schunemann P G, Ebrahim-Zadeh M 2017 Opt. Lett. 42 3606

    [34]

    Zawilski K T, Schunemann P G, Pollak T C, Zelmon D E, Fernelius N C, Kenneth Hopkins F 2010 J. Cryst. Growth 312 1127

    [35]

    Zhang G, Ruan H, Zhang X, Wang S, Tao X 2013 Cryst. Eng. Comm. 15 4255

    [36]

    Fan L, Zhu S, Zhao B, Chen B, He Z, Yang H, Liu G, Wang X 2013 J. Cryst. Growth 364 62

    [37]

    He Z, Zhao B, Zhu S, Chen B, Huang W, Lin L, Feng B 2018 J. Cryst. Growth 481 29

    [38]

    Peremans A, Lis D, Cecchet F, Schunemann P G, Zawilski K T, Petrov V 2009 Opt. Lett. 34 3053

    [39]

    Kumar S C, Agnesi A, Dallocchio P, Pirzio F, Reali G, Zawilski K T, Schunemann P G, Ebrahim-Zadeh M 2011 Opt. Lett. 36 3236

    [40]

    Kumar S C, Jelínek M, Baudisch M, Zawilski K T, Schunemann P G, Kubeček V, Biegert J, Ebrahim-Zadeh M 2012 Opt. Express 20 15703

    [41]

    O'Donnell C F, Kumar S C, Zawilski K T, Schunemann P G, Ebrahim-Zadeh M 2018 Opt. Lett. 43 1507

    [42]

    Bai L, Lin Z S, Wang Z Z, Chen C T 2008 J. Appl. Phys. 103 083111

    [43]

    Isaenko L, Vasilyeva I, Yelisseyev A, Lobanov S, Malakhov V, Dovlitova L, Zondy J J, Kavun I 2000 J. Cryst. Growth 218 313

    [44]

    Wang S, Gao Z, Zhang X, Zhang X, Li C, Dong C, Lu Q, Zhao M, Tao X 2014 Cryst. Growth Des. 14 5957

    [45]

    Beutler M, Rimke I, Büttner E, Petrov V, Isaenko L 2014 Opt. Lett. 39 4353

    [46]

    Isaenko L, Yelisseyev A, Lobanov S, Petrov V, Rotermund F, Slekys G, Zondy J J 2002 J. Appl. Phys. 91 9475

    [47]

    Tupitsyn E, Bhattacharya P, Rowe E, Matei L, Cui Y, Buliga V, Groza M, Wiggins B, Burger A, Stowe A 2014 J. Cryst. Growth 393 23

    [48]

    Wang S, Zhang X, Zhang X, Li C, Gao Z, Lu Q, Tao X 2014 J. Cryst. Growth 401 150

    [49]

    Jia N, Wang S, Gao Z, Wu Q, Li C, Zhang X, Yu T, Lu Q, Tao X 2017 Cryst. Growth Des. 17 5875

    [50]

    Ma T, Zhu C, Lei Z, Yang C, Sun L, Zhang H 2015 J. Cryst. Growth 415 132

    [51]

    Marchev G, Tyazhev A, Vedenyapin V, Kolker D, Yelisseyev A, Lobanov S, Isaenko L, Zondy J J, Petrov V 2009 Opt. Express 17 13441

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    Wang S, Dai S, Jia N, Zong N, Li C, Shen Y, Yu T, Qiao J, Gao Z, Peng Q, Xu Z, Tao X 2017 Opt. Lett. 42 2098

    [53]

    Dai S, Jia N, Chen J, Shen Y, Yang S, Li Y, Liu Q, Yang F, Zong N, Wang Z, Zhang F, Cui D, Peng Q, Wang S, Tao X, Xu Z 2017 Opt. Express 25 12860

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    Lin X, Zhang G, Ye N 2009 Cryst. Growth Des. 9 1186

    [55]

    Yao J, Mei D, Bai L, Lin Z, Yin W, Fu P, Wu Y 2010 Inorg. Chem. 49 9212

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    Badikov V, Badikov D, Shevyrdyaeva G, Tyazhev A, Marchev G, Panyutin V, Petrov V, Kwasniewski A 2011 Phys. Status Solidi RRL 5 31

    [57]

    Tyazhev A, Kolker D, Marchev G, Badikov V, Badikov D, Shevyrdyaeva G, Panyutin V, Petrov V 2012 Opt. Lett. 37 4146

    [58]

    Kato K, Okamoto T, Mikami T, Petrov V, Badikov V, Badikov D, Panyutin V 2013 Proc. SPIE 8604 860416

    [59]

    Yang F, Yao J Y, Xu H Y, Feng K, Yin W L, Li F Q, Yang J, Du S F, Peng Q J, Zhang J Y, Cui D F, Wu Y C, Chen C T, Xu Z Y 2013 Opt. Lett. 38 3903

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    Yang F, Yao J Y, Xu H Y, Zhang F F, Zhai N X, Lin Z H, Zong N, Peng Q J, Zhang J Y, Cui D F, Wu Y C, Chen C T, Xu Z Y 2015 IEEE Photon. Technol. Lett. 27 1100

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    Yuan J H, Li C, Yao B Q, Yao J Y, Duan X M, Li Y Y, Shen Y J, Wu Y C, Cui Z, Dai T Y 2016 Opt. Express 24 6083

    [62]

    Xu W T, Wang Y Y, Xu D G, Li C, Yao J Y, Yan C, He Y X, Nie M T, Wu Y C, Yao J Q 2017 Appl. Phys. B 123 80

    [63]

    Kolker D B, Kostyukova N Y, Boyko A A, Badikov V V, Badikov D V, Shadrintseva A G, Tretyakova N N, Zenov K G, Karapuzikov A A, Zondy J J 2018 J. Phys. Commun. 2 035039

    [64]

    Kolesnikov N N, James R B, Berzigiarova N S, Kulakov M P 2003 Proc. SPIE 4784 93

    [65]

    Zeng T, Zhao B, Zhu S, He Z, Chen B, Tan Z 2011 J. Cryst. Growth 316 15

    [66]

    Ni Y, Wu H, Mao M, Li W, Wang Z, Ma J, Chen S, Huang C 2018 Opt. Mater. Express 8 1796

    [67]

    Yao B Q, Li G, Zhu G L, Meng P B, Jü Y L, Wang Y Z 2012 Chin. Phys. B 3 034213

    [68]

    Allik T H, Chandra S, Rines D M, Schunemann P G, Hutchinson J A, Utano R 1997 Opt. Lett. 22 597

    [69]

    Yuan J H, Duan X M, Yao B Q, Cui Z, Li Y Y, Dai T Y, Shen Y J, Ju Y L 2016 Appl. Phys. B 122 202

    [70]

    Anis M K 1981 J. Cryst. Growth 55 465

    [71]

    Petrov V, Panyutin V L, Tyazhev A, Marchev G, Zagumennyi A I, Rotermund F, Noack F, Miyata K, Iskhakova L D, Zerrouk A F 2011 Laser Phys. 21 774

    [72]

    Tikhomirov A A, Lanskii G V 2006 Proc. SPIE 6258 64

    [73]

    Suhre D R, Singh N B, Balakrishna V, Fernelius N C, Hopkins F K 1997 Opt. Lett. 22 775

    [74]

    Das S, Ghosh C, Voevodina O G, Andreev Y M, Sarkisov S Y 2006 Appl. Phys. B 82 43

    [75]

    Hsu Y K, Chang C S, Hsieh W F 2003 Jpn. J. Appl. Phys. 42 4222

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    Zhu C, Lei Z, Song L, Ma T, Yang C 2015 J. Cryst. Growth 421 53

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    Zhong K, Yao J Q, Li J S, Xu D, Wang P 2010 Proc. SPIE 7846 78460

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    Petrov V, Badikov V, Shevyrdyaeva G, Panyutin V, Chizhikov V 2004 Opt. Mater. 26 217

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    Petrov V, Noack F, Badikov V, Shevyrdyaeva G, Panyutin V, Chizhikov V 2004 Appl. Opt. 43 4590

    [80]

    Shevchuk M V, Atuchin V V, Kityk A V, Fedorchuk A O, Romanyuk Y E, CaŁus S, Yurchenko O M, Parasyuk O V 2011 J. Cryst. Growth 318 708

    [81]

    Santos-Ortiz R, Tupitsyn E, Nieves I, Bhattacharya P, Burger A 2011 J. Cryst. Growth 314 293

    [82]

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  • 收稿日期:  2018-08-27
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中远红外非线性光学晶体研究进展

  • 山东大学晶体材料研究所, 晶体材料国家重点实验室, 济南 250100
    基金项目: 

    国家自然科学基金(批准号:51572155,11504389)、国家重点研发计划(批准号:2016YFB1102201)和高等学校学科创新引智计划2.0(批准号:BP2018013)资助的课题.

摘要: 3–5 μm和8–12 μm波段中远红外激光,在国防和民用领域均具有广泛的应用.作为全固态激光频率转换系统的核心部件,非线性光学晶体需要不断地优化和发展.本文从红外非线性光学晶体材料组成角度出发,总结了几种具有重大应用前景的磷族化合物(ZnGeP2,CdSiP2)、硫属化合物(CdSe,GaSe,LiInS2系列,BaGa4S7系列)以及准位相匹配晶体(OP-GaAs,OP-GaP)等中远红外波段非线性光学晶体的研究进展.

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