High-power solid-state laser performance simulation model

被引：0

作者：

Laser Fusion Research Center, China Academy of Engineering Physics, Mianyang 621900, China ^{[1
]}

不详 ^{[2
]}

机构：

[1] Laser Fusion Research Center, China Academy of Engineering Physics

[2] Computer Application Institute, China Academy of Engineering Physics

来源：

Guangxue Xuebao | 2008年 / SUPPL.卷 / 23-27期

关键词：

Gain-fluence curve; Linear regression algorithm; Simulation model; Solid-state laser; Technical integration line (TIL);

D O I：

10.3788/AOS200828s1.0023

中图分类号：

学科分类号：

摘要：

To realize energy balance and power balance of high-power solid-state laser facility, laser performance simulation model (LPSM) is developed to provide real-time prediction for the Technical Integration Line (TIL). This model is used to determine the system setpoints, such as injection energy, injection pulse shape, attenuations, and laser diagnostic settings. Injection energy is predicted by fitting the amplification curve based on diagnostic energy feedback from previous TIL shots, input pulse shape for flat-top pulse output by iterative loop method, temporally shaped pulse shape by the method of gain-fluence curve, and laser power and energy for laser diagnostic settings by beam propagation and amplification code named SG99. Real-time adjustments of the model parameters allow the LPSM to predict energy within 5%, and provide energy balance within the eight beamlines less than 10% (root-mean-square) for shots varying from 0.5 to 4 kJ (1053 nm) per beamline. The LPSM has been a crucial tool in the commissioning of the TIL.

引用

页码：23 / 27

页数：4

共 8 条

[1] Shaw M., Williams W., House R., Et al., Laser performance operations model, Opt. Eng., 43, 12, pp. 2885-2895, (2004)
[2] Haynam C.A., Wegner P.J., Auerbach J.M., Et al., National ignition facility laser performance status, Appl. Opt., 46, 16, pp. 3276-3303, (2007)
[3] Wang W., Su J., Jing F., Et al., Study on the models multi-pass amplification of nanosecond light pulse, Chin. J. Lasers, 31, SUPPL., pp. 324-326, (2004)
[4] Zhang B., Lu B., Analyzing the inverse problem of the multi-pass laser amplifier system containing a spatial filter by using successive iteration method, Acta Optica Sinica, 18, 12, pp. 1764-1769, (1998)
[5] Zhang B., Lu B., Inverse problem of the multi-stage and multi-pass pulse laser amplifier, Chin. J. Lasers, A24, 6, pp. 495-500, (1997)
[6] Xiong J., Guo A., Qiu H., Orthogonal polynomial and three parameter exponent function model to treat fatigue crack growth curve, Chin. J. Applied Mechanics, 19, 2, pp. 110-113, (2002)
[7] Frantz L.M., Nodvik J.S., Theory of pulse propagation in a laser amplifier, J. Appl. Phys., 34, 8, pp. 2346-2349, (1963)
[8] Liu R., Cai X., Yang L., Et al., Study on gain fluence curve of a laser pulse amplifier, Acta Physica Sinica, 54, 7, pp. 3140-3143, (2005)

← 1 →