1999, Volume 1, Issue 2
Strategic Study of CAE >> 1999, Volume 1, Issue 2
Optoelectronic Crystals, All-Solid-State Lasers and their Applications——An Important Course of Optoelectronics R & D
Institute of Physics, Chinese Academy of Sciences, Beijing 100080, China
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Abstract
The age of optoelectronics is the consequence of rapid evolution and mutual integration of the fields of micro-electronics, laser technology and material science. The appearance of optical fibers and laser diodes in the 1960s, one major contribution of optoelectronic technology to information industry, has led to the advent of optoelectronic communications. In the 1990s, great advances in optoelectronic crystals and breakthroughs in laser diode technology have made all-solid-state lasers a practical realization. As a consequence, this will enable optoelectronics to make its further contribution to more national pillar industries in the first half of the next century, in various aspects like material processing in advanced manufacturing, optical storage in information technology, laser displays in entertainment, laser fusion power station, nuclear fission material processing, upgrading of laser weapons, etc.
Keywords
optoelectronic crystals ; all-solid-state lasers ; material processing ; optical storage ; laser displays ; laser fusion
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References
[ 1 ] Mainman T H, Stimulated optical radiation in ruby [J]. Nature, 1960, 187(4736):493~494
[ 2 ] Newman R, Excitation of the NA3+ fluoreseencein CaWO4 by recombination radiationin GaAs [J]. J. Appl. Phys, 1963, 34(2): 437~438
[ 3 ] Tso Yee Fan, Byer R L. Diode laser-pumped solidstate lasers [J], IEEE Journal of Quantum Electuonics 1988, 24(6): 895~906
[ 4 ] Coherent Laser Group, Power at the pump 8 W and 10 W - now there's a choice [J], Laser Focus World 1999, 35(4): 33
[ 5 ] 从征. 1998年激光市场评述和预测 [J], 激光与光电子进展,1998, 9(393): 27~34
[ 6 ] Jene Bey H, Deep-UV applications await improved nonlinear optics[J]. Laser Focus World, 1998, 34(8): 127~134
[ 7 ] 陶世荃. 光信息存傅[M]. 北京: 北京工业大学出版社, 1998.92~112,128~132
[ 8 ] 朱昌昌.“97平板显示综述 [J]. 光电子技术 1998, 18(1): 1~7
[ 9 ] Wallaee J, Laser crystal is a first-rate host [J]. Laser Focus World. 1999, 35(2): 24~26
[10] Chen Chuangtian, Wu Bochang, Jiang Aidong, et al. A new ultraviiolet SHG crystal ß-BaB2O4 [J]. Sci. Sin., 1985, B28(3): 235~243
[11] Chen Chuangtian, Wa Yicheng, Jiang Aidong, et al, New nonlinear optical crystal LiB3O5 [J]. J. Opt,Soc,Amer., 1989, B6(4): 616~621
[12] 刘耀岗,徐斌,韩建儒,等.高效激光倾频晶体KTP的生长及主要性能[J]. 中国激光, 1986, 13(7): 438~441
[13] Wang Jiyang, Lia Yaogang, Wei Jingqian, et al. Growth, charaeterization and NCPM of nicbium doped KTP crystals [J], Cryst, Res, Tech ,1997 ,32: 319
[14] Chen Chuangtian, Xu Zayan, Deng Daoqum, et al. The yacuum ultraviolet phase-match characteristic of nonlinear optical crystal KBe2BO3F2 [J]. Appl. Phys,Lett, 1996,68(21):2930~2932
[15] Wu Yiheng, Sasali T, Nakai S, et al. CsB3O5: a new nonlinear optical crystal [J], Appl, Phys Lett,,1993,62(21):2614~2615
[16] Chen Chuangtian, Wang Yebin, WaBaichang, et al. Design and synthesis an ultraviolet transparent nonlinear optical crystal Sr2Be2B2O7, [J] Nature, 1995,373(26):322~324
[17] Sasaki T, Kuroda I, Nalajima S, et al. New non Linear optical crystal cesium lithium borate [A], Proceedings on Advanced Sold-State Lasers ‘95 [C]. 1995
[18] Aka G, Bloch L, Benitez J M, et al. A newn onlinear oxoborate crystal, characterized by using femtosecond broadband palses [A] , In: Payne S A, Pollodk C R, Advanced Solid-State Lasers [C], Vol 1 of OSA Proceedings Seres (Optical Sodiety of America, Washington, D, C.),1996.336
[19] Hargis D, Earman A, Diode-pumped microlssers promise portable projectors[J], Laser Focus World 1998,34(5):243~251
[20] Zhu Yong, Yang Changbi, Hui Mengzun, et al. Phase conjugation of BaTIO3 Ce by backeward stimulated photorefractive seatering [J], Appl, Phys Lett,,1994,64(18):2341~2343
[21] He Jingliang, Hou Wai, Zhang Hengli, et al, Continuous-wave output of 5.5 W at 532 nm by intracavity frequency doubling of a Nd:YVO4 lnser [J]. Chin., Phys. Lett,,1998,15(6):418~419
[22] 魏志义,陈毓川,李健,等.自锁模钛宝石激光实现全国化运转[J],光学学报,1998,18(7): 960
[23] 陈毓川,何京良,李健,等.全固态连绪波可调谐钛宝石激光器[J]-.中国激光,1998,25(6):-590
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