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硅酸盐学报 2013

定向生长非线性光学微晶玻璃的制备

曾惠丹,刘钊,范茬兴,任晶,陈国荣,邱建荣

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Abstract:

定向生长非线性晶体掺杂玻璃具有优越的非线性光学特性，在开发具有特定光功能的光学元器件领域有广泛的应用前景。介绍近年来该类功能微晶玻璃的制备方法及研究进展，包括可控热处理、超声表面处理、机械热挤压、电化学合成、磁场效用及激光诱导定向析晶等，并对飞秒激光诱导工艺的研究和机理作了较为详细的阐述。利用外场诱导玻璃中的晶体形成与定向生长，可实现将各种不同功能的非线性光学晶体集成在玻璃内部，制备出新型光学材料。最后，对定向生长非线性晶体掺杂玻璃的制备技术进行了展望。

References

[1]	？谭皓然. 铌酸锂光波导晶体材料的发展[J]. 硅酸盐学报, 1991, 19(4): 366–372.
[2]	TAN Haoran. J Chin Ceram Soc, 1991, 19(4): 366–372.
[3]	？陈创天, 刘丽娟. 深紫外非线性光学晶体及其应用[J]. 硅酸盐学报, 2007, 35(S1): 1–9.
[4]	？张剑平, 丁振亚. BaO–SrO–TiO2–SiO2系统压电微晶玻璃的研究[J]. 硅酸盐学报, 1991, 19(5): 431–436.？
[5]	ZHANG Jianping, DING Zhenya. J Chin Ceram Soc, 1991, 19(5): 431–436.
[6]	？ GARDOPEE G J, NEWNHAM R E, BHALLA A S, et al. Pyroelectric Li2Si2O5 glass-ceramics [J]. Ferroelectrics, 1981, 33(1): 155–163.
[7]	？ OCHI Y, MEGURO T, KAKEGAWA K, et al. Orientated crystallization of fresnoite glass-ceramics by using a thermal gradient [J]. Eur Ceram Soc, 2006, 26(4–5): 627–630.
[8]	？ MARUYAMA N, HONMA T, KOMATSU T, et al. Morphology design of highly oriented nonlinear optical Ba2TiSi2O8 crystals at the glass surface by crystallization in reduced atmosphere [J]. Opt Mater, 2009, 32(1): 35–41.
[9]	？ DING Y, OSAKA A, MIURA Y, et al. Surface crystallization of lithium diborate on glass induced by ultrasonic treatment [J]. Mater Lett, 1993, 18(1–2): 78–83.
[10]	？ DING Y, OSAKA A, MIURA Y, et al. Enhanced surface crystalli- zation of β-Barium borate on glass due to ultrasonic treatment [J]. J Am Ceram Soc, 1994, 77(3): 749–752.
[11]	？ DING Y, OSAKA A, MIURA Y, et al. Polar-oriented crystallization of fresnoite (Ba2TiSi2O8) on glass surface due to ultrasonic treatment with suspensions [J]. J Am ceram Soc, 1994, 77(11): 2905–2910.
[12]	？ ASHBEE K H G. Anisotropic glass-ceramics produced by extrusion through opposed dies [J]. J Mater Sci, 1975, 10(6): 911–917.
[13]	？ KEDING R, RVSSEL C. Oriented glass-ceramics containing fresnoite prepared by electrochemical nucleation of a BaO–TiO2–SiO2–B2O3 melt [J]. J Non-crystal Solids, 2000, 278(1–3): 7–12.
[14]	？ KEDING R, RVSSEL C. The mechanism of electrochemically induced nucleation in glass melts with the composition 2BaO·TiO2·2.75SiO2 [J]. J Non-crystal Solids, 2005, 35(16–17): 1441–1446.
[15]	？ KEDING R, RVSSEL C. Electrochemical nucleation for the preparation of oriented glass ceramics [J]. J Non-crystal Solids, 1997, 219: 136–141.
[16]	？ SHYU J, CHEN Y. Effect of electric field on the crystallization of lead titanate in a glass [J]. J Mater Sci, 2004, 39(1): 159–163.
[17]	？ PERNICE P, ARONNE A, SIGAEV V N, et al. Crystallization Behavior of Potassium Niobium Silicate Glasses [J]. J Am Ceram Soc, 1999, 82(12): 3447–3352.
[18]	？ GERTH K, RVSSEL C, KEDING R, et al. Oriented crystallisation of lithium niobate containing glass ceramic in an electric field and determination of the crystallographic orientation by infrared spectroscopy [J]. Phys Chem Glasses, 1999, 40(3): 135–139.
[19]	？ WANG H, LIU Q, CHENG J, et al. Field assisted isothermal crystallization of SrO-TiO2-SiO2 polar glass-ceramics [J]. Adv Mater Res, 2009, 66(2): 49–52.
[20]	？ TOYOHARA N, BENINO Y, FUJIWARA T, et al. Enhancement and depression in second-order optical nonlinearity of BaTiGeO5 in crystallized glass prepared in a high magnetic field [J]. J Appl Phys, 2006, 99: 043515.
[21]	？ KOYOHARA N, BENINO Y, FUJWARA T, et al. Crystal orientation in Bi-based superconducting glass-ceramics prepared in high magnetic field [J]. Physica C: Superconduct, 2005, 420(3–4): 88–94.
[22]	CHEN Chuangtian, LIU Lijuan. J Chin Ceram Soc, 2007, 35(S1): 1–9.
[23]	？戴晔, 余昺鲲, 邱建荣. 激光在玻璃内诱导功能晶体新进展[J]. 激光与光电子学进展, 2008, 45(6): 33–40.
[24]	DAI Ye, YU Bingkun, QIU Jianrong. Laser Optoelectron Progress (in Chinese), 2008, 45(6): 33–40..
[25]	？ CHANDRA M S, KNSHNA M G, MIMATA H, et al. Laser-induced second harmonic generation decay in a langmuir-blodgett film: arresting by polyelectrolyte templating [J]. Adv Mater, 2005, 17(16): 1937–1941.
[26]	？ CORBARI C, MILLS J D, DEPANS O, et al. Thermal poling of glass modified by femtosecond laser irradiation [J]. Appl Phys Lett, 2002, 81(9): 1585–1587.
[27]	？ HONMA T, KOSHIBA K, BENINO Y, et al. Writing of crystal lines and its optical properties of rare-earth ion Er3+ and Sm3+ doped lithium niobate crystal on glass surface formed by laser irradiation [J]. Opt Mater, 2008, 31(2): 315–319.
[28]	？ RVSSEL C. Oriented crystallization of glass. A review [J]. J Non-cryst Solids, 1997, 219: 212–218.
[29]	？ SCHEEL H J, CAPPER P. Crystal Growth Technology: from Fundamentals and Simulation to Large-scale Production [M]. Wiley-VCH, 2008: 1–38.
[30]	？ TAKAHASHI Y, BENINO Y, FUJIWARA T, et al. Second harmonic generation in transparent surface crystallized glasses with stillwellite-type LaBGeO5 [J]. J Appl Phys, 2001, 89(10): 5282–5287.
[31]	？ MATSUMOTO S, FUJIWARA T, OHAMA M, et al. Crystallization of GeO2–SiO2 glass by poling with ArF laser excitation [J]. Opt Lett, 1999, 24(20): 1404–1406.
[32]	？ SIGAEV V N, SARKISOV P D, PERNICE P, et al. Surface and bulk stillwellite textures in glasses of the La2O3–B2O3–GeO2 system [J]. J Eur Ceram Soc, 2004, 24(6): 1063–1067.
[33]	？ ZENG H, POUMELLEC B, FAN C, et al. Preparation of glass-ceramics with oriented nonlinear crystals: A review [C]// MARYANN C. Wythers. Advances in Materials Science Research, Nova Science Publishers, 2012, 12: 89–134. https://www.novapublishers.com/catalog/Product_ info.php?products_id = 28327
[34]	？ DING Y, MIURA Y, NAKAOKA S, et al. Oriented surface crystallization of lithium niobate on glass and second harmonic generation [J]. J Non-cryst Solids, 1999, 259(1–3): 132–138.
[35]	？段非, 方承平, 丁振亚. BaO–SrO–TiO2–SiO2透明极性微晶玻璃的研究[J]. 硅酸盐学报, 1998, 26(3): 395–398.
[36]	DUAN Fei, FANG Chengpin, DING Zhenya. J Chin Ceram Soc, 1998, 26(3): 395–398.
[37]	？ FUJIWARA T, TAKAHASHI M, IKUSHIMA A J, et al. Second-harmonic generation in germanosilicate glass poled with ArF laser irradiation [J]. Appl Phys Lett, 1997, 71(8): 1032–1034.
[38]	？ MATSUMOTO S, FUJIWARA T, IKUSHIMA A, et al. Crystallization of GeO2–SiO2 glass by poling with ArF laser excitation [J]. Opt Lett, 1999, 24(20): 1404–1406.
[39]	？ HONMA T, BENINO Y, KOMATSU T, et al. Spatially selected crystallization in glass by YAG laser irradiation [J]. J Non-Cryst Solids, 2004, 345: 127–131.
[40]	？ IHARA R, HONMA T, KOMATSU T, et al. Writing of two-dimen- sional crystal curved lines at the surface of Sm2O3–Bi2O3–B2O3 glass by samarium atom heat processing [J]. Solid State Comm, 2005, 136: 273–277.
[41]	？ SUGITA H, HONMA T, KOMATSU T, et al. Formation of LiNbO3 crystals at the surface of TeO2-based glass by YAG laser-induced crystallization [J]. Solid State Comm, 2007, 143(6–7): 280–284.
[42]	？ HIROSE K, HONMA T, KOMATSU T, et al. Glass–ceramics with LiFePO4 crystals and crystal line patterning in glass by YAG laser irradiation [J]. Solid State Ionics, 2007, 178(11–12): 801–807.
[43]	？ HONMA T, KOSHIBA K, KOMATSU T, et al. Writing of crystal lines and its optical properties of rare-earth ion (Er3+ and Sm3+) doped lithium niobate crystal on glass surface formed by laser irradiation [J]. Opt Mater, 2008, 31(2): 315–319.
[44]	？ HONMA T, BENINO Y, KOMATSU T, et al. Transition metal atom heat processing for crytstal lines in glass [J]. Appl Phys Lett, 2006, 88(23): 231105.
[45]	？ HONMA T, BENINO Y, KOMATSU T, et al. Nonlinear optical crystal-line writing in glass by yttrium aluminum garnet laser irradiation [J]. Appl Phys Lett, 2003, 82(6): 892–894.
[46]	？ MACIENTE A F, MASTELARO V R, MARTINEZ A L, et al. Surface crystallization of β-BaB2O4 phase using a CO2 laser source [J]. J Non-Cryst Solids, 2002, 306(3): 309–312.
[47]	？ AVANSI W, MASTELARO V R, ANDREETA M R B, et al. Surface modification and crystallization of the BaO–B2O3–SiO2 glassy system using CO2 laser irradiation [J]. J Non-Cryst Solids, 2008, 354(2): 279–283.
[48]	？刘寅. 高重复频率飞秒激光诱导功能微结构[D]. 浙江: 浙江大学, 2010.
[49]	LIU Yin. High repetition rate femtosecond laser induced microstructures (in Chinese, dissertation). Zhejiang: Zhejiang University, 2010.
[50]	？ MIURA K, QIU J, HIRAO K, et al. Space-selective growth of frequency-conversion crystals in glasses with ultrashort infrared laser pulses [J]. Opt Lett, 2000, 25(6): 408–410.
[51]	？ GUO X, DAI Y, QIU J, et al. Distribution of the microcrystallites generated in borate glass irradiated by femtosecond laser pulses [J]. Mater Lett, 2007, 61(11–12): 2338–2342.
[52]	？ DAI Y, MA H, ZHU B, et al. Femtosecond laser-induced oriented precipitation of Ba2TiGe2O8 crystals in glass [J]. Opt Expr, 2008, 16(6): 3912–3917.
[53]	？ DAI Y, ZHU B, QIU J, et al. Direct writing three-dimensional Ba2TiSi2O8 crystalline pattern in glass with ultrashort pulse laser [J]. Appl Phys Lett, 2007, 90(18): 181109.
[54]	？ DAI Y, ZHU B, QIU J, et al. Space-selective precipitation of functional crystals in glass by using a high repetition rate femtosecond laser [J]. Chem Phys Lett, 2007, 443(4–6): 253–257.
[55]	？ STONE A, SAKAKURA M, SHIMOTSUMA Y, et al. Formation of ferroelectric single-crystal architectures in LaBGeO5 glass by femtosecond vs. continuous-wave lasers [J]. J Non-Cryst Solids, 2010, 356(52–54): 3059–3065.
[56]	？ STONE A, SAKAKURA M, SHIMOTSUMA Y, et al. Directionally controlled 3D ferroelectric single crystal growth in LaBGeO5 glass by femtosecond laser irradiation [J]. Opt Expr, 2009, 17(25): 23284– 23289.
[57]	？ FAN C, POUMELLEC B, CHEN G, et al. 3D photo-precipitation of oriented LiNbO3-like crystals in silica based glass with femtosecond laser irradiation [J]. Opt Lett, 2012, 37(14): 2955–2957.
[58]	？戴晔. 飞秒激光在透明介质中诱导光子学微结构[D]. 上海: 上海大学, 2008.
[59]	DAI Ye. Femtosecond laser induced photonics microstructure in the transparent medium (in Chinese, dissertation), Shanghai: Shanghai University, 2008.
[60]	？范茬兴. 飞秒激光在玻璃内部诱导修饰微纳米晶体. 上海: 华东理工大学, 2012
[61]	FAN Chaxing. Femtosecond laser induced modified micro/nano crystals in the glass (in Chinese, dissertation), Shanghai: East China University of Science and Technology, 2012.
[62]	？

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