LD泵浦被动调Q腔内和频拉曼激光器速率方程

皇甫军强; 贾海旭; 杨丽丽; 丁双红

doi:10.3788/IRLA201645.0606006

LD泵浦被动调Q腔内和频拉曼激光器速率方程

doi: 10.3788/IRLA201645.0606006

1.
烟台大学光电信息科学技术学院,山东烟台 264005;
2.
北京东方锐镭科技有限公司,北京 100015

基金项目:

山东省自然科学基金(ZR2014FM021);烟台大学研究生科技创新基金(01056)

详细信息

作者简介:
皇甫军强(1989-),男,硕士生,主要从事固体拉曼激光器等方面的研究。Email:hfjq@foxmail.com

中图分类号: TN248.1

Rate equation theory of LD pumped passively Q-switched intracavity sum-frequency Raman laser

1.
School of Photo-Electronic Information Science and Technology,Yantai University,Yantai 264005,China;
2.
Beijing Oriental Sharp Laser Technology Co.,Ltd,Beijing 100015,China

摘要: 运用非线性光学的和频理论推导出被动调Q腔内和频拉曼激光器速率方程理论中的和频项,在被动调Q拉曼激光器速率方程的基础上,推导被动调Q腔内和频拉曼激光器速率方程,再将方程归一化,得到八个综合参量。推导出和频脉冲峰值功率和单脉冲能量的归一化表达式。数值模拟观察各参量对和频脉冲峰值功率、单脉冲能量和脉冲宽度的影响。对各参量影响进行分析,发现和频因子与归一化拉曼增益系数需要相互匹配才能实现高效率的和频光输出。同时,比较了被动调Q腔内和频拉曼激光器与被动调Q腔内倍频拉曼激光器的数值模拟结果。
- 和频激光器 /
- 拉曼激光器 /
- 速率方程 /
- 数值模拟
Abstract: Sum-frequency term of the rate equation theory of passively Q-switched intracavity sum-frequency Raman laser was derived from the sum-frequency theory. Based on rate equations of passively Q-switched Raman laser, passively Q-switched intracavity sum-frequency laser rate equations were derived and normalized, and eight comprehensive parameters were obtained. The normalized expression of the peak power and the single pulse energy were derived. The influence of these comprehensive parameters on the peak power, the energy of single pulse and the pulse duration was observed by numerical simulation. The influences of each parameter were analyzed, and it was found that the sum-frequency factor and the normalized Raman gain coefficient need to be matched with each other to achieve the high efficiency output of the sum-frequency. Finally, the numerical simulation results of passively Q-switched intracavity sum-frequency Raman laser rate equations were compared with those of passively Q-switched intracavity frequency doubling Raman laser rate equations.
- sum-frequency laser /
- Raman laser /
- rate equations /
- numerical simulation

[1]	Lee A J, Pask H M, Spence D J, et al. Efficient 5.3 W cw laser at 559 nm by intracavity frequency summation of fundamental and first-Stokes wavelengths in a self-Raman Nd:GdVO4 laser[J]. Optics Letters, 2010, 35(5): 682-684.
[2]	Liang W, Zhang X H, Xia J. Efficient continuouswave laser at 560 nm by intracavity frequency summation of fundamental and first-Stokes wavelengths in Nd:YVO4-BaWO4 Raman laser[J]. Laser Physics, 2011, 21(4): 667-669.
[3]	Tan Y, Fu X, Zhai P, et al. An efficient cw laser at 560 nm by intracavity sum-frequency mixing in a self-Raman Nd: LuVO4 laser[J]. Laser Physics, 2013, 23(4): 045806.
[4]	Zhu Haiyong, Zhang Ge, Duan Yanmin, et al. Compact continuous-wave Nd:YVO4 laser with self-Raman conversion and sum frequency generation[J]. Chinese Physics Letters, 2010, 28(5): 054202.
[5]	Du Chenlin, Guo Yayin, Yu Yongqin, et al. High power Q-switched intracavity sum-frequency generation and self-Raman laser at 559nm[J]. Optics Laser Technology, 2013, 47: 43-46.
[6]	Su Fufang, Zhang Xingyu, Wang Weitao, et al. Diode-pumped intracavity yellow-green Raman laser at 560 nm with sum-frequency-generation[J]. Optics Laser Technology, 2014, 6(6): 122-124.
[7]	Fu Xihong, Tan Huiming, Li Yiming, et al. All-solid-state single-longitudinal-mode 593.5 nm sum-frequency laser[J]. Optics and Precision Engineering, 2007, 15(10): 1469-1473. (in Chinese)付喜宏, 檀慧明, 李义民, 等. 全固态单纵模593.5 nm和频激光器[J]. 光学精密工程, 2007, 15(10): 1469-1473.
[8]	Li Yongliang, Jiang Huilin, Xing Yu, et al. Doubly resonant intra-cavity sum-frequency yellow-green laser at 554.8 nm[J]. Infrared and Laser Engineering, 2009, 38(5): 869-872. (in Chinese)李永亮, 姜会林, 邢宇, 等. 复合腔和频554.8 nm黄-绿光激光器[J]. 红外与激光工程, 2009, 38(5): 869-872.
[9]	Jiang Zhongming, Chen Dianren. All-solid-state continuous-wave doubly resonant all intracavity sum-frequency yellow laser at 570 nm[J]. Optics and Precision Engineering, 2010, 18(4): 805-808. (in Chinese)姜忠明, 陈殿仁. 全固态复合腔和频570 nm连续波黄光激光器[J]. 光学精密工程, 2010, 18(4): 805-808.
[10]	Li Yongliang, Jiang Huilin, Xing Yu, et al. LD-pumped sum-frequency in 593 nm yellow laser[J]. Infrared and Laser Engineering, 2012, 41(8): 2038-2041. (in Chinese)李永亮, 姜会林, 邢宇, 等. LD泵浦和频593 nm黄光激光器[J]. 红外与激光工程, 2012, 41(8): 2038-2041.
[11]	Zhang Xingyu, Zhao Shengzhi, Wang Qingpu, et al. Optimization of Cr4+-doped saturable-absorber Q-switched lasers[J]. IEEE Journal of Quantum Electronics, 1997, 33(12): 2286-2294.
[12]	Ding Shuanghong, Zhang Xingyu, Wang Qingpu, et al. Numerical modelling of passively Q-switched intracavity Raman lasers[J]. Journal of Physics D: Applied Physics, 2007, 40(9): 2736.
[13]	Liu Yongna. Theoretical and experimental study on LD pumped passively Q-switched intracavity frequency-doubled Raman yellow laser[D]. Yantai: Yantai University, 2012. (in Chinese)刘永纳. LD泵浦被动调Q腔内倍频拉曼黄光激光器理论与实验研究[D]. 烟台: 烟台大学, 2012.
[14]	Degnan J J. Theory of the optimally coupled Q-switched laser[J]. Quantum Electronics, IEEE Journal of, 1989, 25(2): 214-220.

[1]	张子浩, 王旭, 黄怡晨, 李福泉, 李俐群, 蔺晓超, 杨诗瑞, 郭鹏. 供油孔流量数值模拟及其飞秒激光加工工艺优化 . 红外与激光工程, 2023, 52(4): 20220454-1-20220454-10. doi: 10.3788/IRLA20220454
[2]	傅杨奥骁, 江涛, 刘庆宗, 丁明松, 李鹏, 董维中, 高铁锁, 许勇. 高超声速飞行器热喷高温燃气红外辐射特性数值模拟 . 红外与激光工程, 2022, 51(10): 20220023-1-20220023-10. doi: 10.3788/IRLA20220023
[3]	刘卫平, 吕玉伟, 吴丽雄, 韦成华, 王家伟, 韩永超, 张爽. 玻璃钢激光烧蚀碳化致微波传输衰减的数值模拟 . 红外与激光工程, 2021, 50(12): 20210137-1-20210137-7. doi: 10.3788/IRLA20210137
[4]	张果, 孙帅, 张尧, 盛泉, 史伟, 姚建铨. 基于负曲率空芯光纤的光泵太赫兹光纤激光器的理论研究 . 红外与激光工程, 2020, 49(2): 0205001-0205001. doi: 10.3788/IRLA202049.0205001
[5]	盛泉, 司汉英, 安建民, 张海伟, 张钧翔, 丁宇, 李升才, 史伟, 姚建铨. 高功率光纤激光器反向光放大和损伤特性数值分析 . 红外与激光工程, 2020, 49(10): 20200009-1-20200009-7. doi: 10.3788/IRLA20200009
[6]	盛泉, 司汉英, 张海伟, 张钧翔, 丁宇, 史伟, 姚建铨. 高功率光纤激光器反向光放大和损伤特性数值分析 . 红外与激光工程, 2020, 49(): 1-6.
[7]	李紫慧, 王续跃. 层合板激光往复扫描弯曲中翘曲变形数值模拟 . 红外与激光工程, 2018, 47(12): 1206008-1206008(8). doi: 10.3788/IRLA201847.1206008
[8]	李紫慧, 王续跃. 金属复合板激光弯曲过程中翘曲变形数值模拟 . 红外与激光工程, 2018, 47(5): 506004-0506004(7). doi: 10.3788/IRLA201847.0506004
[9]	彭进, 张文洁, 王星星, 郭国全, 张芙蓉. 焊丝熔化填充方式对激光焊接熔池影响的数值模拟 . 红外与激光工程, 2018, 47(3): 306005-0306005(7). doi: 10.3788/IRLA201847.0306005
[10]	蒙裴贝, 史文宗, 颜凡江, 李旭. 谐振腔失谐对二极管泵浦Nd：YAG激光器性能的影响 . 红外与激光工程, 2017, 46(6): 605001-0605001(7). doi: 10.3788/IRLA201746.0605001
[11]	于学丽, 丁双红, 贾海旭, 辛磊. 主动调Q腔内和频拉曼激光器的数值模拟 . 红外与激光工程, 2017, 46(9): 906001-0906001(7). doi: 10.3788/IRLA201746.0906001
[12]	王维, 刘奇, 杨光, 钦兰云, 岳耀猛. 电磁搅拌辅助钛合金激光沉积修复的电磁场模拟与验证 . 红外与激光工程, 2015, 44(9): 2666-2671.
[13]	乔亮, 羊富贵, 夏忠朝, 武永华, 江琳沁. Tm,Ho声光调Q激光系统理论与实验研究 . 红外与激光工程, 2015, 44(4): 1141-1144.
[14]	刘家琛, 唐鑫, 巨永林. 微型红外探测器组件快速冷却过程数值模拟分析 . 红外与激光工程, 2015, 44(3): 816-820.
[15]	常金勇, 强希文, 胡月宏, 宗飞, 李志朝, 封双连. 激光传输光束抖动效应的数值模拟 . 红外与激光工程, 2015, 44(S1): 46-49.
[16]	戴毅斌, 樊玉杰, 李明尧, 刘晓宇, 蒋彭胜, 殷开婷. 多点激光微冲击成形的数值模拟研究 . 红外与激光工程, 2015, 44(S1): 50-56.
[17]	王慧, 张会峰, 郭涛. Nd:GYSGG/YVO₄双波长人眼安全波段内腔拉曼激光器 . 红外与激光工程, 2015, 44(12): 3512-3516.
[18]	许兆美, 刘永志, 周建忠, 蒋素琴, 王庆安, 汪通, 洪宗海. 基于生死单元的激光铣削温度场数值模拟与验证 . 红外与激光工程, 2014, 43(6): 1755-1760.
[19]	高飞, 陈飞, 谢冀江, 张来明, 李殿军, 杨贵龙, 郭劲. 半导体泵浦铯蒸汽激光器工作特性分析 . 红外与激光工程, 2013, 42(9): 2386-2391.
[20]	唐力铁, 于志闯, 赵乐至, 尹飞, 郭士波, 谈斌. DF/HF化学激光器喷管总压损失的数值模拟 . 红外与激光工程, 2013, 42(5): 1194-1197.

点击查看大图

计量

文章访问数: 496
HTML全文浏览量: 81
PDF下载量: 156
被引次数: 0

姓名
邮箱
手机号码
标题
留言内容
验证码

留言板

LD泵浦被动调Q腔内和频拉曼激光器速率方程

doi: 10.3788/IRLA201645.0606006

作者简介:
皇甫军强(1989-),男,硕士生,主要从事固体拉曼激光器等方面的研究。Email:hfjq@foxmail.com

Rate equation theory of LD pumped passively Q-switched intracavity sum-frequency Raman laser

计量

LD泵浦被动调Q腔内和频拉曼激光器速率方程

doi: 10.3788/IRLA201645.0606006

1. 烟台大学光电信息科学技术学院,山东烟台 264005;

2. 北京东方锐镭科技有限公司,北京 100015

作者简介:
皇甫军强(1989-),男,硕士生,主要从事固体拉曼激光器等方面的研究。Email:hfjq@foxmail.com

English Abstract

Rate equation theory of LD pumped passively Q-switched intracavity sum-frequency Raman laser

1. School of Photo-Electronic Information Science and Technology,Yantai University,Yantai 264005,China;

2. Beijing Oriental Sharp Laser Technology Co.,Ltd,Beijing 100015,China

全文HTML

目录

留言板

LD泵浦被动调Q腔内和频拉曼激光器速率方程

doi: 10.3788/IRLA201645.0606006

作者简介: 皇甫军强(1989-),男,硕士生,主要从事固体拉曼激光器等方面的研究。Email:hfjq@foxmail.com

Rate equation theory of LD pumped passively Q-switched intracavity sum-frequency Raman laser

计量

出版历程

LD泵浦被动调Q腔内和频拉曼激光器速率方程

doi: 10.3788/IRLA201645.0606006

1. 烟台大学 光电信息科学技术学院,山东 烟台 264005; 2. 北京东方锐镭科技有限公司,北京 100015

作者简介: 皇甫军强(1989-),男,硕士生,主要从事固体拉曼激光器等方面的研究。Email:hfjq@foxmail.com

English Abstract

Rate equation theory of LD pumped passively Q-switched intracavity sum-frequency Raman laser

1. School of Photo-Electronic Information Science and Technology,Yantai University,Yantai 264005,China; 2. Beijing Oriental Sharp Laser Technology Co.,Ltd,Beijing 100015,China

全文HTML

目录

作者简介:
皇甫军强(1989-),男,硕士生,主要从事固体拉曼激光器等方面的研究。Email:hfjq@foxmail.com

1. 烟台大学光电信息科学技术学院,山东烟台 264005;

2. 北京东方锐镭科技有限公司,北京 100015

作者简介:
皇甫军强(1989-),男,硕士生,主要从事固体拉曼激光器等方面的研究。Email:hfjq@foxmail.com

1. School of Photo-Electronic Information Science and Technology,Yantai University,Yantai 264005,China;

2. Beijing Oriental Sharp Laser Technology Co.,Ltd,Beijing 100015,China