Numerical simulation analysis of high efficient SFG and color separation in far field in high power laser facility based on noncollinear phase matching by KDP crystal
文献类型:期刊论文
| 作者 | Liu C(刘崇); Zhu BQ(朱宝强); Lin ZQ(林尊琪); Ji LL(季来林) |
| 刊名 | 物理学报
 |
| 出版日期 | 2016 |
| 卷号 | 65期号:14 |
| 通讯作者 | jsycjll@siom.ac.cn |
| 中文摘要 | 为满足高功率激光装置对终端光学系统的改进要求, 控制3omega光路透射元件厚度以降低激光损伤风险, 避免3omega非对称聚焦与色分离元件对靶场调靶产生不利影响, 本文利用非共线相位匹配原理讨论了KDP晶体I类和II类两种和频产生351 nm(3omega)激光及其远场色分离过程. 模拟结果表明, 室温20 ℃环境中除目前常用的共线和频外, 1053 nm(omega)与526.5 nm(2omega)激光可选择I类或II类两种非共线和频方式实现高效3omega激光输出并在激光远场实现色分离, 且具有足 |
| 英文摘要 | Asymmetric property of wedge lens in 3 omega optical path which is used as frequency separation, and focusing element is considered to be an unfavourable factor for target alignment in inertial confinement fusion (ICF). Furthermore, the thickness of wedge lens in 3 omega optical path will lead to laser induced damage inevitably. For the purpose of scheme improvement of final optical assembly, types I and II noncollinear sum frequency generation in KDP crystal at room temperature are discussed based on nonlinear coupled wave theory. As illustrated by simulated result, in addition to type II collinear SFG used in ICF recently, 351 nm (3 omega) waves can be generated by type I or II noncollinear SFG process. This method can realize color separations of omega, 2 omega, 3 omega in far field without asymmetric element such as wedge lens and posses adequate tolerance of matching angle corresponding to the high efficiency conversion. As calculated, for type I SFG, when the noncollinear angle alpha is in the interval from 0 degrees to 19.99 degrees, phase matching condition can be satisfied in KDP crystal. The noncritical phase matching angle theta(3) is 90 degrees and the corresponding noncollinear angle alpha is about 19.99 degrees. The tolerance of mismatching angle is about +/- 20 mrad. For type II SFG, the noncollinear angle interval that can satisfy phase matching process is about 0 degrees-13.55 degrees. Like type I SFG, there is also an noncritical solution in type II process whose matching angle is about theta(3 omega) = 86.53 degrees. Because of the smaller effective nonlinear coefficient in this case, high efficiency conversion needs about 5 cm thick SFG crystal under 1 GW/cm(2). Correspondingly, tolerance of mismatching angle is about +/- 20 mrad. Because of the harsh tolerance of noncollinear angle between omega and 2 omega and for the purpose of compactness of final optical assembly, another method of noncollinear SFG is proposed: a piece of silica wedge with 12 degrees wedged angle is mounted behind the SHG crystal in order to produce a 3.5 mrad intersection angle between ! and 2 omega, and after type II noncollinear SFG process, omega, 2 omega, 3 omega will be frequency separated in far field automatically by using thin lens. The tolerance of incident angle corresponding to high efficient conversion is about +/- 1.0 mrad. This scheme can improve the the final optical assembly used recently. |
| 收录类别 | SCI |
| WOS记录号 | WOS:000381645900016 |
| 源URL | [http://ir.siom.ac.cn/handle/181231/27975]  |
| 专题 | 上海光学精密机械研究所_高功率激光物理国家实验室 |
| 作者单位 | 中国科学院上海光学精密机械研究所 |
| 推荐引用方式 GB/T 7714 | Liu C,Zhu BQ,Lin ZQ,et al. Numerical simulation analysis of high efficient SFG and color separation in far field in high power laser facility based on noncollinear phase matching by KDP crystal[J]. 物理学报,2016,65(14). |
| APA | 刘崇,朱宝强,林尊琪,&季来林.(2016).Numerical simulation analysis of high efficient SFG and color separation in far field in high power laser facility based on noncollinear phase matching by KDP crystal.物理学报,65(14). |
| MLA | 刘崇,et al."Numerical simulation analysis of high efficient SFG and color separation in far field in high power laser facility based on noncollinear phase matching by KDP crystal".物理学报 65.14(2016). |
入库方式: OAI收割
来源:上海光学精密机械研究所
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