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利用深度学习技术实时重建高能超快激光脉冲。

Real-time reconstruction of high energy, ultrafast laser pulses using deep learning.

机构信息

STROBE, NSF Science and Technology Center, University of California, Irvine, CA, 92617, USA.

Department of Computer Science, University of California, Irvine, CA, 92617, USA.

出版信息

Sci Rep. 2022 Mar 29;12(1):5299. doi: 10.1038/s41598-022-09041-y.

Abstract

We report a method for the phase reconstruction of an ultrashort laser pulse based on the deep learning of the nonlinear spectral changes induce by self-phase modulation. The neural networks were trained on simulated pulses with random initial phases and spectra, with pulse durations between 8.5 and 65 fs. The reconstruction is valid with moderate spectral resolution, and is robust to noise. The method was validated on experimental data produced from an ultrafast laser system, where near real-time phase reconstructions were performed. This method can be used in systems with known linear and nonlinear responses, even when the fluence is not known, making this method ideal for difficult to measure beams such as the high energy, large aperture beams produced in petawatt systems.

摘要

我们报告了一种基于自相位调制引起的非线性光谱变化的深度学习方法,用于超短激光脉冲的相位重建。神经网络在具有随机初始相位和光谱的模拟脉冲上进行训练,脉冲持续时间在 8.5 到 65fs 之间。该重建方法在中等光谱分辨率下有效,并且对噪声具有鲁棒性。该方法在超快激光系统产生的实验数据上进行了验证,其中进行了近实时的相位重建。该方法可用于具有已知线性和非线性响应的系统,即使不知道光强,这使得该方法非常适合难以测量的光束,如皮秒系统中产生的高能、大口径光束。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4759/8964819/d2ee3c4edd1e/41598_2022_9041_Fig1_HTML.jpg

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