Design and Experiment of a Fundamental Mode and Thermal Stable Cavity Based on 447 nm Blue Light Laser

[1] [1] Gao Jing, Yu Xin, Zhang Wenping et al.. Research progress in LD pumped all-soild-state blue lasers［J］. Optical Technique, 2007, 32(3): 430～434

[2] [2] C. Czeranowsky, E. Heumann, G. Huber. All-solid-state continuous-wave frequency-doubled NdYAG-BIBO laser with 2.8-W output power at 473 nm［J］. Opt. Lett., 2003, 28(6): 432～434

[3] [3] Y. Chen, H. Peng, W. Hou et al.. 3.8 W of cw blue light generated by intracavity frequency doubling of a 946-nm NdYAG laser with LBO［J］. Appl. Phys. B, 2006, 83(2): 241～243

[4] [4] Q. H. Xue, Q. Zheng, Y. K. Bu et al.. High-power efficient diode-pumped NdYVO4/LiB3O5 457 nm blue laser with 4.6 W of output power［J］. Opt. Lett., 2006, 31(8): 1070～1072

[5] [5] F. Jia, Q. Xue, Q. Zheng et al.. 5.3 W deep-blue light generation by intra-cavity frequency doubling of NdGdVO4［J］. Appl. Phys. B, 2006, 83(2): 245～247

[6] [6] Yanfei Lü, Xihe Zhang, Zhihai Yao et al.. 6.2-W deep blue light generation by intracavity frequency-doubled NdGdVO4 using BiBO［J］. Chin. Opt. Lett., 2007, 5(7): 407～408

[7] [7] Wang Junguang, Li Yongliang, Tian Yinghua et al.. All solid state continuous-wave all-intracavity sum-frequency mixing blue laser at 488 nm［J］. Chinses J. Lasers, 2010, 37(7): 1669～1672

[8] [8] Meng Yuqing, Tan Huiming, Fu Xihong et al.. LD pumped NdGdVO4/LBO intracavity sum-frequency 491 nm blue laser［J］. Chinses J. Lasers, 2009, 36(7): 1735～1739

[9] [9] Zhu Haiyong, Zhang Ge, Huang Chenghui et al.. Multi-watt power blue light generation by intracavity sum-frequency-mixing in KTiOPO4 crystal［J］. Opt. Express, 2008, 16(5): 2989～2994

[10] [10] Y. F. Chen, Y. S. Chen, T. H. Ou et al.. Compact efficient diode-pumped NdYVO4 Q-switched blue laser with intracavity frequency tripling［J］. Appl. Phys. B, 2005, 81(4): 517～520

[11] [11] Li Jingzhao. The Reaearch of All-Soild-State 447nm CW Laser［D］. Guangzhou: Jinan University, 2009. 40～43

[12] [12] Jürg Steffen, J. P. Lovtscher, G. Herziger. Fundamental mode radiation with solid-state laser［J］. IEEE J. Quantum Electron., 1972, QE-8(2): 239～245

[13] [13] Vittorio Magni. Resonators for solid-state laser with large-volume fundamental modes and high aligment stability［J］. Appl. Opt., 1986, 25(1): 107～117

[14] [14] G. Cerullo, S. De. Silvestri, V. Magni et al.. Output power limitations in CW single transverse mode NdYAG laser with a rod of large cross-section［J］. Optical and Quantum Electronics, 1993, 25(8): 489～500

[15] [15] Lü Baida. Laser Optics［M］. Beijing: Science Press, 2003. 356～361

[16] [16] Volker Gaebler, Baining Liu, Hans Joachim Eichler et al.. Efficient blue cw NdYAG microchip laser with two intracavity frequency doublers［J］. Opt. Lett., 2000, 25(18): 1343～1345

CLP Journals

[1] Fu Xihong, Peng Hangyu, Shan Xiaonan, Qin Li. Diode-Pumped Nd:YAG/Nd:YVO₄ Intracavity Sum-Frequency Mixing Laser at 500.9 nm[J]. Chinese Journal of Lasers, 2013, 40(6): 602012

Tools

Get Citation

Copy Citation Text

Yang Qiguo, Zhu Siqi, Chen Zhenqiang, Pan Jun, Hu Zhipeng, Wang Su′e. Design and Experiment of a Fundamental Mode and Thermal Stable Cavity Based on 447 nm Blue Light Laser[J]. Chinese Journal of Lasers, 2011, 38(11): 1102003

Download Citation

EndNote(RIS)BibTex Plain Text

Set citation alerts for article

Save article for my favorites

Paper Information

Category: Laser physics

Received: Jun. 28, 2011

Accepted: --

Published Online: Oct. 17, 2011

The Author Email: Qiguo Yang (yangqiguo@126.com)

DOI:10.3788/cjl201138.1102003

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology