首页|期刊导航|强激光与粒子束|超连续谱激光大气传输热晕效应的仿真方法研究

超连续谱激光大气传输热晕效应的仿真方法研究OA

Numerical simulation method for thermal blooming effect in atmospheric propagation of supercontinuum laser

中文摘要英文摘要

超连续谱激光因其宽光谱特性在光电对抗中具有较大应用潜力.本文基于光波传播的 Maxwell波动方程和大气热吸收流体运动方程,提出了一种超连续谱激光大气传输热晕效应的数值仿真方法,该方法考虑了超连续谱激光不同波长成分大气吸收和衰减效应的差异性,结合超连续谱激光光源的光谱分布和大气辐射传输原理,构建了可表征各波长成分大气吸收累积热效应的热晕相位屏,并采用多层相位屏傅里叶变换和多波长非相干叠加的求解方法,建立了超连续谱大气传输热晕效应的数值仿真模型.通过对比已有单波长激光大气传输热晕效应的理论结果,验证了仿真模型的可靠性.基于数值仿真模型,对不同发射功率的超连续谱激光大气传输热晕效应进行了初步仿真,计算了超连续谱激光大气传输的典型到靶光强分布、质心偏移量、Strehl比和能量分布曲线等参数,得出超连续谱激光特殊光强分布以及一些光束特性.本文提出的数值方法为高功率超连续谱激光大气传输热晕效应的研究提供了研究基础.

[Background]The propagation of high-power lasers through the atmosphere is subject to thermal blooming effects,which arise from wavelength-dependent atmospheric absorption and subsequent refractive index perturbations.Supercontinuum lasers,characterized by broad spectral bandwidths,introduce additional complexity due to differential absorption and attenuation across their spectral components.[Purpose]This study aims to develop a numerical simulation method for the thermal blooming effect during atmospheric propagation of supercontinuum lasers,with particular focus on accounting for the differential atmospheric absorption and attenuation across various wavelengths within the supercontinuum spectrum.[Methods]Based on Maxwell's wave equations for light propagation and the fluid dynamics equations for atmospheric thermal absorption,a numerical simulation model was established using a multi-layer phase screen Fourier transform method and a multi-wavelength incoherent superposition approach.A thermal blooming phase screen was constructed by integrating the spectral distribution of the supercontinuum laser source with principles of atmospheric radiative transfer to characterize the cumulative thermal effects from atmospheric absorption at each wavelength component.The reliability of the simulation model was verified by comparing its results with existing theoretical outcomes for single-wavelength laser atmospheric thermal blooming.[Results]Using the proposed numerical simulation model,preliminary simulations were conducted on the atmospheric thermal blooming effects of supercontinuum lasers at different emission powers.Key parameters such as typical on-target intensity distribution,centroid offset,Strehl ratio,and energy distribution curves for atmospheric propagation were calculated.The results reveal the unique intensity distribution and certain beam characteristics of the supercontinuum laser.[Conclusions]The numerical method proposed in this paper provides a foundational research tool for studying the thermal blooming effects in high-power supercontinuum laser atmospheric propagation.

张哲川;钱仙妹;骆传凯;戴聪明;郑健捷;朱文越;魏合理

中国科学院 合肥物质研究院,合肥 230031||中国科学技术大学 研究生院科学岛分院,合肥 230026中国科学院 合肥物质研究院,合肥 230031中国科学院 合肥物质研究院,合肥 230031中国科学院 合肥物质研究院,合肥 230031中国科学院 合肥物质研究院,合肥 230031中国科学院 合肥物质研究院,合肥 230031中国科学院 合肥物质研究院,合肥 230031

数理科学

超连续谱激光激光大气传输热晕效应数值仿真

supercontinuum laserlaser atmospheric propagationthermal blooming effectnumerical simulation

《强激光与粒子束》 2026 (6)

11-19,9

国家自然科学基金项目(42305137)激光与物质相互作用全国重点实验室基金项目(SKLLIM-KB-2403)

10.11884/HPLPB202638.250487

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