Theoretical analysis of a multi-grating-based cross-dispersed spatial heterodyne spectrometer

Theoretical analysis of a multi-grating-based cross-dispersed spatial heterodyne spectrometer

This paper presents a multi-grating-based cross-dispersed spatial heterodyne spectrometer (MGCDSHS). The principle of generation of two-dimensional interferograms for two cases, where the light beam is diffracted by one sub-grating or two sub-gratings, is given and equations for the interferogram pa...

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Veröffentlicht in:Optics express 2023-05, Vol.31 (11), p.18190-18209
Hauptverfasser: Chu, Qihang, Li, Xiaotian, Sun, Yuqi, Jirigalantu, Sun, Ci, Chen, Jun, Li, Fuguan, Bayanheshig
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container_end_page 18209
container_issue 11
container_start_page 18190
container_title Optics express
container_volume 31
creator Chu, Qihang
Li, Xiaotian
Sun, Yuqi
Jirigalantu
Sun, Ci
Chen, Jun
Li, Fuguan
Bayanheshig
description This paper presents a multi-grating-based cross-dispersed spatial heterodyne spectrometer (MGCDSHS). The principle of generation of two-dimensional interferograms for two cases, where the light beam is diffracted by one sub-grating or two sub-gratings, is given and equations for the interferogram parameters in these two cases are derived. An instrument design with numerical simulations is presented that demonstrates the spectrometer's ability to simultaneously record separate interferograms corresponding to different spectral features with high resolution over a broad spectral range. The design solves the mutual interference problem caused by overlapping of the interferograms, and also provides the high spectral resolution and broad spectral measurement range that cannot be achieved using conventional SHSs. Additionally, by introducing cylindrical lens groups, the MGCDSHS solves the throughput loss and light intensity reduction problems caused by direct use of multi-gratings. The MGCDSHS is compact, highly stable, and high-throughput. These advantages make the MGCDSHS suitable for high-sensitivity, high-resolution, and broadband spectral measurements.
doi_str_mv 10.1364/OE.488319
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title Theoretical analysis of a multi-grating-based cross-dispersed spatial heterodyne spectrometer
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