锁模Cr^(4+):YAG激光器的脉冲振荡启动研究
The Research of Self-starting Mode-locked Cr4+:YAG Laser
摘要
根据固体Cr4+:YAG激光器的传播方程讨论了激光器腔内任何位置的场的表达式,分析了Cr4+:YAG激光器的锁模情形,这种激光器的锁模可以在外界驱动条件下及在腔中加入锁模元件SBR两种情况下进行启动。
出处
《光通信技术》
CSCD
北大核心
2005年第7期14-16,共3页
Optical Communication Technology
基金
国家自然科学基金项目(60378011)
参考文献8
-
1Hergen Eilers,William M.Dennis,William M Yen,et al. Performance of a Cr:YAG laser. IEEE J.Quantum Electron.1993,29(9):2508~2512
-
2Alphan Sennaroglu,Clifford R.Pollock..efficient continuous-wave chromium-doped YAG laser. J.Opt. Soc. Am.B,1995, 12(5):930~937
-
3Leburn C G, Lagatsky A A, A.Brown C T, et al. Femtosecond Cr4+:YAG laser with
-
4GHz pulse repetition rate.Electron. Lett.2004,40(13):805-8074.Ripin D J,Chudoba C, Gopinath J T,et al. Generation of 20-fs-pulses by a prismless Cr4+:YAG laser. Opt.Lett.2002,27(1):61-63
-
5Lagatsky A A, Leburn C G, Brown C T A, et al. Compact self-starting femtosecond Cr4+:YAG laser diode pumped by a Yb-fiber laser. Opt. Comm.217(2003):363~367
-
6A.J.Alcock,P.Sorach,K.Hnatovsky. Broadly tunable continuous-wave diode-pumped Cr4+:YAG laser. Opt.Comm.2003,215:153~ 157
-
7J.Theimer,M.Hayduk,M.F.Krol et al. Mode-locked Cr4+:YAG laser:model and experiment. Opt. Comm. 1997( 142):55~60
-
8Vittorio Magni,Giulio Cerullo,Sandro De Silvestri. Closed form Gaussian beam anlysis of resonators containing a Kerr medium for femtosecond lasers. Opt. Comm.101(1993):365~370
-
1余先伦,曹轶乐,杨伯君,张晓光.Cr^(4+)∶YAG激光器的自锁模条件分析[J].激光与红外,2004,34(3):174-177.
-
2余先伦,杨伯君,于丽.Cr^(4+)∶YAG固体激光器的频率稳定性分析[J].光通信研究,2005(4):64-67.
-
3余先伦,杨伯君,余重远,张晓光.典型Cr^(4+):YAG激光器的色散特性分析研究[J].激光杂志,2004,25(2):23-25.
-
4宋丽军,裴为华,宋晏蓉,周国生.自锁模Cr^(4+)∶YAG激光器的色散补偿研究[J].光子学报,2003,32(10):1163-1165. 被引量:6
-
5余先伦,赵威威,杨伯君,于丽.Cr^(4+)∶YAG激光器中产生孤子脉冲的理论分析[J].激光技术,2005,29(4):354-357.
-
6彭吉昌,王加贤.1.06μm脉冲抽运的Cr^(4+):YAG激光器的研究[J].应用激光,2006,26(3):163-166.
-
7余先伦,李在玉,杨伯君,于丽.Cr^(4+):YAG激光器的腔内损耗对激光特性的影响分析[J].激光杂志,2005,26(5):21-23.
-
8何理,杨伯君,张金胜,于丽,张晓光.被动锁模掺饵光纤激光器的研究[J].量子光学学报,2006,12(B08):33-34.
-
9徐伟尧.宽带移动通信发展的方向——LTE-Advanced[J].广西通信技术,2010(4):24-29.
-
10余先伦,宋渊明.Cr^(4+):YAG激光器的研究与应用[J].激光与光电子学进展,2006,43(2):42-45.
