期刊文献+
共找到3篇文章
< 1 >
每页显示 20 50 100
1.2 kW all-fiber narrow-linewidth picosecond MOPA system
1
作者 Jiexi Zuo Haijuan Yu +7 位作者 shuzhen zou Zhiyong Dong Chaojian He Shuang Xu Chaoyu Ning Xuechun Chen Xinyao Li Xuechun Lin 《High Power Laser Science and Engineering》 SCIE EI CAS CSCD 2023年第2期52-58,共7页
Achieving an all-fiber ultra-fast system with above kW average power and mJ pulse energy is extremely challenging.This paper demonstrated a picosecond monolithic master oscillator power amplifier system at a 25 MHz re... Achieving an all-fiber ultra-fast system with above kW average power and mJ pulse energy is extremely challenging.This paper demonstrated a picosecond monolithic master oscillator power amplifier system at a 25 MHz repetition frequency with an average power of approximately 1.2 kW,a pulse energy of approximately 48μJ and a peak power of approximately 0.45 MW.The nonlinear effects were suppressed by adopting a dispersion stretched seed pulse(with a narrow linewidth of 0.052 nm)and a multi-mode master amplifier with an extra-large mode area;then an ultimate narrow bandwidth of 1.32 nm and a moderately broadened pulse of approximately 107 ps were achieved.Meanwhile,the great spatio-temporal stability was verified experimentally,and no sign of transverse mode instability appeared even at the maximum output power.The system has shown great power and energy capability with a sacrificed beam propagation product of 5.28 mm·mrad.In addition,further scaling of the peak power and pulse energy can be achieved by employing a lower repetition and a conventional compressor. 展开更多
关键词 fiber laser nonlinear optics picosecond pulse transverse mode instability
原文传递
Experimental investigation of the stimulated Raman scattering effect in high-power nanosecond superfluorescent fiber source
2
作者 Chaoyu Ning shuzhen zou +8 位作者 Haijuan Yu Jiexi Zuo Xuechun Chen Shuang Xu Shifei Han Xinyao Li Wenjuan Wu Chaojian He Xuechun Lin 《High Power Laser Science and Engineering》 SCIE CAS CSCD 2023年第6期229-238,共10页
In this work,we experimentally investigate the dependence of the stimulated Raman scattering(SRS)effect on the seed linewidth of a high-power nanosecond superfluorescent fiber source(ns-SFS).The results reveal that th... In this work,we experimentally investigate the dependence of the stimulated Raman scattering(SRS)effect on the seed linewidth of a high-power nanosecond superfluorescent fiber source(ns-SFS).The results reveal that the SRS in the ns-SFS amplifier is significantly influenced by the full width at half maximum(FWHM)of the ns-SFS seed,and there is an optimal FWHM linewidth of 2 nm to achieve the lowest SRS in our case.The first-order SRS power ratio increases rapidly when the seed’s linewidth deviates from the optimal FWHM linewidth.By power scaling the ns-SFS seed with the optimal FWHM linewidth,a narrowband all-fiberized ns-SFS amplifier is achieved with a maximum average power of 602 W,pulse energy of 24.1 mJ and corresponding peak power of 422.5 kW.This is the highest average power and pulse energy achieved for all-fiberized ns-SFS amplifiers to the best of our knowledge. 展开更多
关键词 fiber amplifier high power nanosecond superfluorescent fiber source stimulated Raman scattering effect
原文传递
152 W high-power blue diode laser operated at 447 nm 被引量:4
3
作者 Peng Wu Ling Zhang +10 位作者 Haijuan Yu Xiandan Yuan Zhiyan Zhang Pengfei Zhao shuzhen zou Chaojian He Yaoyao Qi Yingying Yang Gang Li Xubao Wang Xuechun Lin 《Journal of Semiconductors》 EI CAS CSCD 2017年第7期71-73,共3页
We demonstrate a high-power blue diode laser operated at 447 nm combining laser diodes using an optical fiber bundle. As many as 127 diode lasers at 447 nm were coupled into 400 μm/0.22 NA fibers using an aspherical ... We demonstrate a high-power blue diode laser operated at 447 nm combining laser diodes using an optical fiber bundle. As many as 127 diode lasers at 447 nm were coupled into 400 μm/0.22 NA fibers using an aspherical lens group with different focus lengths. The bare fibers were mechanically bundled through high temperature ultraviolet adhesive after the coatings of the 127 fibers were stripped. The diameter of the fiber bundle was 6 mm. The total output power of such a bundle was 152 W with electro-optical conversion efficiency of 27.56%and the RMS power instability was less than ±1% within 3 h. 展开更多
关键词 high power blue diode laser fiber bundle optical power combining
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部