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Impacts of Laboratory Vibrations and Laser Flicker Noise on Digital Holography
IEEE Journal of Quantum Electronics ( IF 2.2 ) Pub Date : 2020-06-25 , DOI: 10.1109/jqe.2020.3004833
Douglas E. Thornton , Mark F. Spencer , Christopher A. Rice , Glen P. Perram

In this this paper, we measure both the vibration efficiency and the coherence efficiency of a digital holography (DH) system. We do so at various integration times and path-length differences between the signal and reference. Like in previous experiments [Appl. Opt., vol. 58, no. 34, pp. G19-G30, 2019] and [Opt. Eng., vol. 59, no. 10, 2020], these efficiencies contribute to the overall mixing efficiency, which is a measure for how well the detected signal and reference interfere. New to this paper, however, is the fact that both the vibration efficiency and the coherence efficiency depend on the integration time. Thus, this paper should be of interest to readers who study digital holography and coherent detection.

中文翻译:


实验室振动和激光闪烁噪声对数字全息术的影响



在本文中,我们测量了数字全息(DH)系统的振动效率和相干效率。我们在信号和参考之间的不同积分时间和路径长度差异下进行此操作。就像之前的实验一样[应用。选择,卷。 58,没有。 34,第 G19-G30,2019] 和 [选项。工程,卷。 59,没有。 [2020 年 10 月 10 日],这些效率有助于整体混合效率,这是检测到的信号和参考信号干扰程度的衡量标准。然而,本文的新颖之处在于振动效率和相干效率都取决于积分时间。因此,研究数字全息和相干检测的读者应该会对本文感兴趣。
更新日期:2020-06-25
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