Design of seed laser injection locking system for 2μm solid-state laser based on FPGA

Dongfang Guo, Yuan Gao, Hongzhi Yang, Junru Zhou, Y. Mao, Zi-li Zhang, L. Wang
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Abstract

The excellent properties of the narrow linewidth, single longitudinal mode and constant frequency of the seed-injected solid-state single-frequency pulse laser make it suitable in the applications of the gravitational wave detection, doppler wind radar, and greenhouse gas flux measurement. FPGAs have been widely utilized in the laser electronic control systems due to its high integration and parallel processing capabilities. Based on the classical Ramp-Hold-Fire principle, we develop an injection locking system by using the modular FPGA architecture and the Verilog programming language. To demonstrate the program's viability, Vivado software is utilized for online simulation and debugging to guarantee the correctness of time conversion between different modules. The simulation results show a good time match between the master and slave lasers. The realization of seed injection locking is verified by detecting the increase of output laser energy, shortening pulse setup time and single longitudinal mode output pulse after injection. Finally, a 2 μm single frequency pulse laser is generated with a repetition rate 300 Hz and output power 4.5 mJ.
基于FPGA的2μm固体激光器种子激光注入锁定系统设计
种子注入固体单频脉冲激光器的窄线宽、单纵模、恒频等优良特性使其适合于引力波探测、多普勒风雷达、温室气体通量测量等领域的应用。fpga以其高集成度和并行处理能力在激光电子控制系统中得到了广泛的应用。基于经典的Ramp-Hold-Fire原理,采用模块化FPGA架构和Verilog编程语言开发了一种注入锁定系统。为了验证程序的可行性,利用Vivado软件进行在线仿真和调试,保证不同模块间时间转换的正确性。仿真结果表明,主从激光器时间匹配良好。通过检测注入后输出激光能量的增加、脉冲设置时间的缩短和单纵模输出脉冲,验证了注种锁定的实现。最后生成了重复频率为300 Hz、输出功率为4.5 mJ的2 μm单频脉冲激光。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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