Study on high power green lasers with unstable resonators
-
摘要: 为了提高激光的光束质量和提供准直的平行光束,为抽运钛宝石提供优良的大功率的绿光抽运源,对激光二极管侧面抽运Nd:YAG声光调Q腔内倍频固体激光器进行了研究.实验中采用凸平直线非稳腔,将凸面镜和增益介质热透镜效应等效为望远镜系统进行分析.由实验可知,凸平非稳腔具有较大模体积、良好的稳定性等优点;利用二类相位匹配的磷酸钛氧钾晶体进行腔内倍频,当抽运功率为200W时,获得脉宽109ns、重复频率9.3kHz、发散角小于2mrad的42W绿光输出,光光转换效率达到21%,24h长时间的工作,不稳定性小于2%.结果表明,利用非稳腔腔型,在侧面抽运的模块中可以实现高效的大功率绿光输出.Abstract: In order to improve its laser beam quality,obtain collimated laser beam and provide an excellent high-power green laser source to pump Ti:sapphire,a diode-side-pumped acoustic-optic Q-switched intra-cavity frequency doubling Nd:YAG laser was studied.In the experiment,a convex-plane unstable resonator was adopted assuming the convex mirrors and gain medium thermal lens as a telescope system.Experimental results show that a convex-plane unstable resonator has lager mode volume and better stability.Using a second type phase-matched KTP(KTiOPO4) for intra-cavity frequency doubling,with 200W pump power,42W green laser was output with 109ns pulse width,9.3kHz pulse repetition frequency,less than 2mrad divergent angle,21% optical-optical conversion efficiency and instability less than 2% during 24h work.It is proven that an effective output of green laser can be achieved with an unstable resonator and side pump module.
-
Keywords:
- lasers /
- unstable cavity /
- green laser /
- convex-plane resonator
-
-
[1] CHANG J J,DRAGON E P,EBBERDS C A,et al.An efficient diode-pumped Nd:YAG laser with 451W of CW IR and 182W of pulsed green output[C]//OSA TOPS on Advanced Solid-state Lasers.Coeur D' Alene,Idaho,USA:High Power Laser Sources,1998:300-304.
[2] SUSUMU K,SHUICHI F,KOJI Y.Highly efficient 68W green-beam generation by use of an intracavity frequency-doubled diode sidepumped Q-switched Nd:YAG rod laser[J].Applied Optics,1998,37(27):6401-6404.
[3] JIANG D Sh,ZHOU Sh H,ZHAO H,et al.High average power double frequency operation of Nd:YAG rod lasers side pumped by diode arrays[J].Chinese Journal of Lasers,2001,A28(4):301-303(in Chinese).
[4] XU D G,YAO J Q,CHEN J,et al.High stabilization 85W all solid state green laser operation[J].Chinese Journal of Lasers,2004,31(4):385-389(in Chinese).
[5] XU D G,YAO J Q,GUO L,et al.104W laser diode pumped intracavity frequency doubled Nd:YAG green light laser[J].Acta Optica Sinca,2004,24 (7):925-928 (in Chinese).
[6] JIANG D Sh,ZHAO H,WANG J J,et al.120W diode pumped green Nd:YAG laser[J].High Power Laser and Particle Beams,2005,17(1):7-10(in Chinese).
[7] GONG M L,ZHANG Z P,GAO S,et al.Diode corner-pumped TEM00 Nd:YAG lasers[J].Laser Technology,2009,33 (1):1-4(in Chinese).
[8] LI Ch R,CHEN X Y,LI X,et al.164W LD side-pumped quasicontinuous-wave Nd:YAG/HGTR-KTP green laser[J].Laser Technology,2009,33(3):291-291 (in Chinese).
[9] WU D E,YAN C F,ZHANG G Y,et al.Choice of resonant cavity for LD end-pumped solid-state lasers[J].Chinese Journal of Quantum Electronics,2007,24(1):32-37(in Chinese).
[10] ZHANG J,QUADE M,DU K M,et al.Efficient TEM00 operation of Nd:YVO4 laser end pumped by fibre-coupled diode laser[J].SPIE,1997,3097:629-632.
[11] KOGELNIK H,LI T.Laser beam and resonators[J].Applied Optics,1966,5(10):1550-1567.
[12] ASKIN A,BOYED G D,DZIEDZIC J M.Resonant optical second harmonic generation and mixing[J].IEEE Journal of Quantum Electronics,1966,QE2(6):109-123.
[13] ZHANG K Sh,ZHANG J,XIE Ch D,et al.Efficient second harmonic generation of 1.06μm using an external resonator[J].Acta Optica Sinca,1998,18(8):1015-1018(in Chinese).
[14] WANG N R,WANG C Zh,ZHAO Ch M,et al.138W narrow pulse width solid state green laser operation[J].Chinese Journal of Lasers,2006,33(8):1017-1020(in Chinese).
[15] ZHAO Zh L,ZHU J Q,CHEN L H,et al.Grads-compensating temperature control for crystal in high power green light laser[J].Chinese Journal of Lasers,2007,34(5):623-627(in Chinese).
-
期刊类型引用(3)
1. 孙雯,张龙青. 基于深度卷积神经网络的产品无损分级检测方法. 激光杂志. 2025(02): 251-256 . 
百度学术
2. 李霞,杨正维,黄俊伟,杨亚复,高莎. 机器学习参与山区村落影像点云分类的研究. 激光技术. 2024(02): 288-294 . 本站查看
3. 李佳瑞,王继芬,范琳媛,石学军. 基于光谱和色谱数据碰撞融合策略的大麻油快速识别分类. 激光与光电子学进展. 2022(16): 506-513 . 百度学术
其他类型引用(1)
计量
- 文章访问数: 0
- HTML全文浏览量: 0
- PDF下载量: 7
- 被引次数: 4
下载: