Quasi-Phase-Matched Intracavity Second Harmonic Generation

[in Chinese]; [in Chinese]; [in Chinese]; [in Chinese]; [in Chinese]; [in Chinese]; [in Chinese]; [in Chinese]

Chinese Journal of Lasers, Volume. 33, Issue 10, 1314(2006)

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References(9)

[3] [3] Takaaki Hatanaka, Koichiro Nakamura, Tetsuo Taniuchi et al.. Quasi-phase-matched optical parametric oscillation with periodically poled stoichiometric LiTaO3 [J]. Opt. Lett., 2000, 25(9):651～653

[6] [6] V. Pruneri, J. Webjrn, P. St. J. Russell et al.. Intracavity second harmonic generation of 0.532 μm in bulk periodically poled lithium niobate [J]. Opt. Commun., 1995, 116(1-3):159～162

[7] [7] S. Wang, V. Pasiskcvicius, E. Laurell et al.. Intracavity frequency doubling of Nd∶YVO4 disk laser with periodically poled KTiOPO4 ［C］. Pacific Rim Conference on Lasers and Electro-Optics, CLEO - Technical Digest, 2000. 16～17

[8] [8] S. Greenstein, M. Rosenbluh. Dynamics of cw intra-cavity second harmonic generation by PPKTP [J]. Opt. Commun., 2004, 238(4-6):319～327

[9] [9] Y. S. Kim, R. T. Smith. Thermal expansion of lithium tantalate and lithium niobate single crystals [J]. J. Appl. Phys., 1969, 40(11):4637～4641

[10] [10] Ariel. Bruner, David Eger, Moshe B. Oron et al.. Temperature-dependent Sellmeier equation for the refractive index of stoichiometric lithium tantalate [J]. Opt. Lett., 2003, 28(3):194～196

[12] [12] Zhang Baigang, Yao Jianquan, Lu Yang et al.. High-efficiency single-pass cw quasi-phase-matched frequency doubling based on PP-MgO∶SLT [J]. Chinese Physics, 2005, 14(2):353～358

[13] [13] G. D. Miller, R.G. Batchko, W. M. Tulloch et al.. 42%-efficient single-pass cw second-harmonic generation in periodically poled lithium niobate [J]. Opt. Lett., 1997, 22(24):1834～1836

[14] [14] L. E. Myers, R. C. Eckardt, M. M. Fejer et al.. Quasi-phase-matched optical parametric oscillators in bulk periodically poled LiNbO3 [J]. J. Opt. Soc. Am. B, 1995, 12(11):2102～2116

CLP Journals

[1] Yan Boxia, Bi Yong, Wang Dongdong, Bao Guang, Qi Yan, Fang Tao, Zhang Ying. Compact and Highly Efficient 3.8 W Intracavity Frequency-Doubled Nd:YVO₄/PPMgLN Green Laser[J]. Chinese Journal of Lasers, 2011, 38(3): 302007

[2] Lu Yanhua, Zhang Lei, Ma Yi, Liu Dong, Tang Chun, Wang Weimin, Gao Songxin, Wei Bin. Sodium Guidestar Laser Based on High-Efficiency PPSLT Quasi-Phase-Matched Sum Frequency Generation[J]. Acta Optica Sinica, 2010, 30(8): 2306

[3] Gui Shixin, Chang Jianhua, Yan Na, Guo Yue, Wu Yu. A Compact and Highly Efficient Intracavity Frequency-DoubledGreen Laser Based on Periodically Poled Lithium Niobate[J]. Chinese Journal of Lasers, 2015, 42(11): 1102002

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[in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese]. Quasi-Phase-Matched Intracavity Second Harmonic Generation[J]. Chinese Journal of Lasers, 2006, 33(10): 1314

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Paper Information

Category: Laser physics

Received: Jan. 16, 2006

Accepted: --

Published Online: Oct. 31, 2006

The Author Email: (jifengtju@163.com)

DOI:

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology