Optical design of a crossed Czerny–Turner spectrometer with a linear array photomultiplier tube

Chen Wang; He Chen; Yinchao Zhang; Siying Chen; Pan Guo; Lifu Wang

doi:10.1364/AO.58.007789

Optical design of a crossed Czerny–Turner spectrometer with a linear array photomultiplier tube

Chen Wang, He Chen^*, Yinchao Zhang, Siying Chen, Pan Guo, Lifu Wang

^*Corresponding author for this work

School of Optics and Photonics

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

13 Citations (Scopus)

Abstract

Conventional Czerny–Turner spectrometers exhibit keystone distortion due to astigmatism, which affects their performance when a linear array photomultiplier tube (LaPMT) is used as the detector. We propose a novel optical design of a crossed Czerny–Turner spectrometer with a 32-channel LaPMT detector. We use convergent illumination of the grating to modify the astigmatism of the off-axis spherical mirrors, and the image spot radius at the central wavelength in the sagittal plane is matched with the width of the LaPMT. A first-order equation is derived for the elimination of the broadband keystone distortion. After optimization, the image size over the entire bandwidth matches well with the LaPMT size, which is consistent with the theory, and the spectral resolution is ∼4 nm per channel.

Original language	English
Pages (from-to)	7789-7794
Number of pages	6
Journal	Applied Optics
Volume	58
Issue number	28
DOIs	https://doi.org/10.1364/AO.58.007789
Publication status	Published - 1 Oct 2019

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abstract = "Conventional Czerny–Turner spectrometers exhibit keystone distortion due to astigmatism, which affects their performance when a linear array photomultiplier tube (LaPMT) is used as the detector. We propose a novel optical design of a crossed Czerny–Turner spectrometer with a 32-channel LaPMT detector. We use convergent illumination of the grating to modify the astigmatism of the off-axis spherical mirrors, and the image spot radius at the central wavelength in the sagittal plane is matched with the width of the LaPMT. A first-order equation is derived for the elimination of the broadband keystone distortion. After optimization, the image size over the entire bandwidth matches well with the LaPMT size, which is consistent with the theory, and the spectral resolution is ∼4 nm per channel.",

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AU - Wang, Lifu

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AB - Conventional Czerny–Turner spectrometers exhibit keystone distortion due to astigmatism, which affects their performance when a linear array photomultiplier tube (LaPMT) is used as the detector. We propose a novel optical design of a crossed Czerny–Turner spectrometer with a 32-channel LaPMT detector. We use convergent illumination of the grating to modify the astigmatism of the off-axis spherical mirrors, and the image spot radius at the central wavelength in the sagittal plane is matched with the width of the LaPMT. A first-order equation is derived for the elimination of the broadband keystone distortion. After optimization, the image size over the entire bandwidth matches well with the LaPMT size, which is consistent with the theory, and the spectral resolution is ∼4 nm per channel.

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Optical design of a crossed Czerny–Turner spectrometer with a linear array photomultiplier tube

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