Noise in Frequency-Resolved-Optical-Gating Measurements of Ultrashort Laser Pulses

Signal Recovery and Synthesis Pub Date : 1900-01-01 DOI:10.1364/srs.1995.rtud1
D. Fittinghoff, K. Delong, R. Trebino, C. Ladera
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引用次数: 0

Abstract

Frequency-resolved optical gating[1, 2] (FROG) is a technique that uses a phase-retrieval algorithm to obtain the intensity, I(t), and phase, ϕ(t), from a measured spectrogram of the pulse. Previous simulations have shown that, for noise-free data, the algorithm retrieves the correct intensity and phase for all pulses attempted, including those with complex intensity and phase structure. In practice, however, noise is present in actual FROG traces, and here we discuss the effects of noise on FROG and image-processing techniques to improve the retrieval.
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超短激光脉冲分频光门测量中的噪声
频率分辨光门控[1,2](FROG)是一种使用相位检索算法从测量的脉冲频谱图中获得强度I(t)和相位ϕ(t)的技术。先前的模拟表明,对于无噪声数据,该算法可以检索到所有尝试的脉冲的正确强度和相位,包括那些具有复杂强度和相位结构的脉冲。然而,在实践中,噪声存在于实际的青蛙轨迹中,在这里我们讨论噪声对青蛙和图像处理技术的影响,以提高检索。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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Signal Recovery and Synthesis
Signal Recovery and Synthesis
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