Yinhui Tang scite author profile

Yinhui Tang

2Publications

1Citation Statement Received

0Citation Statements Given

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Affiliations

University of Chinese Academy of Sciences, Aerospace Information Research Institute, Chinese Academy of Sciences

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Investigating the Influence of the Diffraction Effect on Fourier Transform Spectroscopy with Bandpass Sampling

Chen

Tang

et al. 2022

Applied Sciences

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Fourier transform spectroscopy with bandpass sampling (BPS-FTS) increases the interferogram sampling step and reduces sampling frequency, thereby reducing system implementation difficulty. However, this technology has only been introduced in principle and lacks analysis of the actual system error. In this paper, we present a theoretical analysis of the optical system diffraction effect, derive the bandpass spectrum bandwidth and interferogram sampling step under the influence of the diffraction effect, and conduct modeling and a simulation analysis with and without the diffraction effect. Through simulation, we found that when the diffraction effect was considered, the relative deviation of the recovered spectrum from the input spectrum was 1.30%, and the spectral similarity was 0.9669. However, without considering the diffraction effect, the relative deviation of the recovered spectrum from the input spectrum was 6.23%, and the spectral similarity was only −0.0056. The simulation results demonstrate that the diffraction effect has a significant influence on BPS-FTS interferogram sampling and recovery spectra. The results of this study have reference significance for their technical realization of BPS-FTS.

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Parallelism error analysis and its effect on modulation depth based on a rotating parallel mirror Fourier spectrometer

Tang¹,

Lü²,

Zhu³

et al. 2023

Opt. Express

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The stability of the moving mirror of a Michelson Fourier transform spectrometer (M-FTS) has a non-negligible influence on its spectral quality, which limits its application. We proposed a spectrometer scheme with a pair of rotating parallel mirrors (RPM-FTS), which has advantages of fast response and high stability. The influence of the parallelism error of parallel mirrors on interference was analyzed by establishing a rotation vector model between the parallelism error, rotation angle, and optical path. The modulation depth of the RPM-FTS is more insensitive with the same installation error of the M-FTS; thus, more spectral details can be displayed easily.

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Yinhui Tang

Investigating the Influence of the Diffraction Effect on Fourier Transform Spectroscopy with Bandpass Sampling

Parallelism error analysis and its effect on modulation depth based on a rotating parallel mirror Fourier spectrometer

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