摘要
中心波长为800nm、脉宽为60fs、重复频率为10Hz的飞秒激光分为强弱两束,能量较强一束经I类相位匹配的BBO晶体倍频,之后与另一束光非共线和频得到三次谐波输出。实验得出基频和倍频光能量达到最佳配比时,三次谐波的转换效率最大;系统输出激光携带一定负啁啾可以补偿色散,提高三次谐波的转换效率。最终,当基频和倍频光的能量分别为2.38mJ和0.588mJ,系统输出激光带有9.66×103fs2的负啁啾时,得到了中心波长为267nm、单脉冲能量为230mJ的三次谐波输出,其转换效率高达19%。
The laser beam from Ti:sapphire laser with pulse width of 60 fs,repetition of 10 Hz and wavelength of 800 nm,is splitted into a strong beam and a weak one.The former is frequency-doubled in type-I phase-matched BBO crystal,and then the third harmonic is achieved by the non-collinear frequency-sum of the fundamental wave(800 nm)and the second harmonic generation(400 nm).The sum-frequency efficiency reaches the maxium value when the optimal ratio of fundamental wave and second harmonic is realized.The negative chirp introduced by the fundamental wave can compensate partially dispersion and improve conversion efficiency.When the pulse energy of 800nm and 400nm are 2.38and 0.588mj respectively,a single pulse energy of 230μj at 267nm is obtained with group vetocity dispersion of -9.66×10^2ts^2 and conversion efficiency of 19%.
出处
《激光与光电子学进展》
CSCD
北大核心
2008年第6期73-77,共5页
Laser & Optoelectronics Progress
基金
国家重点基础研究发展计划(973)项目(2006CB806001)
上海市浦江人才计划资助(06PJ14035)
教育部重点基金(107047)资助
关键词
飞秒激光
BBO
和频
三次谐波
啁啾
转换效率
femtosecond laser
BBO
sum-frequency
third harmonic
chirp
conversion efficiency