Optical design of concave grating Raman spectrometer

Xinghuan Jin; He Chen; Jianing Dong; Siying Chen; Pan Guo; Yinchao Zhang

doi:10.3788/AOS201535.0930004

Optical design of concave grating Raman spectrometer

Xinghuan Jin, He Chen, Jianing Dong, Siying Chen, Pan Guo, Yinchao Zhang

School of Optics and Photonics

Beijing Institute of Technology

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

6 Citations (Scopus)

Abstract

Portable Raman spectrometer is designed with concave grating and spherical mirror on basis of classic Czerny-Turner spectrometer in this paper. The equation of primary coma-free is concluded according to aberration theory of concave grating. Combined with geometrical relationship in tangential plane, the relation of size of image plane and parameter of this system is concluded. Laser of 532 nm is selected asexcitation light source with object numerical aperture (NA) of 0.12. Charge-coupled device (CCD) with 1024 pixelï¿½64 pixel is selected as detector, in which 64 pixels is combined to make a linear array CCD. This design is simulated and analyzed by Zemax, and spectral resolution of 0.3 nm is realized at the band from 537 nm to 615 nm with a portable institutions. Image plane is analyzed in Zemax non-sequential mode. The whole band is in the receiving range of CCD, which proves the feasibility of this structure.

Original language	English
Article number	0930004
Journal	Guangxue Xuebao/Acta Optica Sinica
Volume	35
Issue number	9
DOIs	https://doi.org/10.3788/AOS201535.0930004
Publication status	Published - 10 Sept 2015

Keywords

Concave grating
Portability
Raman spectrometer
Spectroscopy
Zemax

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10.3788/AOS201535.0930004

Cite this

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title = "Optical design of concave grating Raman spectrometer",

abstract = "Portable Raman spectrometer is designed with concave grating and spherical mirror on basis of classic Czerny-Turner spectrometer in this paper. The equation of primary coma-free is concluded according to aberration theory of concave grating. Combined with geometrical relationship in tangential plane, the relation of size of image plane and parameter of this system is concluded. Laser of 532 nm is selected asexcitation light source with object numerical aperture (NA) of 0.12. Charge-coupled device (CCD) with 1024 pixel{\"i}¿½64 pixel is selected as detector, in which 64 pixels is combined to make a linear array CCD. This design is simulated and analyzed by Zemax, and spectral resolution of 0.3 nm is realized at the band from 537 nm to 615 nm with a portable institutions. Image plane is analyzed in Zemax non-sequential mode. The whole band is in the receiving range of CCD, which proves the feasibility of this structure.",

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author = "Xinghuan Jin and He Chen and Jianing Dong and Siying Chen and Pan Guo and Yinchao Zhang",

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AU - Jin, Xinghuan

AU - Chen, He

AU - Dong, Jianing

AU - Chen, Siying

AU - Guo, Pan

AU - Zhang, Yinchao

PY - 2015/9/10

Y1 - 2015/9/10

N2 - Portable Raman spectrometer is designed with concave grating and spherical mirror on basis of classic Czerny-Turner spectrometer in this paper. The equation of primary coma-free is concluded according to aberration theory of concave grating. Combined with geometrical relationship in tangential plane, the relation of size of image plane and parameter of this system is concluded. Laser of 532 nm is selected asexcitation light source with object numerical aperture (NA) of 0.12. Charge-coupled device (CCD) with 1024 pixelï¿½64 pixel is selected as detector, in which 64 pixels is combined to make a linear array CCD. This design is simulated and analyzed by Zemax, and spectral resolution of 0.3 nm is realized at the band from 537 nm to 615 nm with a portable institutions. Image plane is analyzed in Zemax non-sequential mode. The whole band is in the receiving range of CCD, which proves the feasibility of this structure.

AB - Portable Raman spectrometer is designed with concave grating and spherical mirror on basis of classic Czerny-Turner spectrometer in this paper. The equation of primary coma-free is concluded according to aberration theory of concave grating. Combined with geometrical relationship in tangential plane, the relation of size of image plane and parameter of this system is concluded. Laser of 532 nm is selected asexcitation light source with object numerical aperture (NA) of 0.12. Charge-coupled device (CCD) with 1024 pixelï¿½64 pixel is selected as detector, in which 64 pixels is combined to make a linear array CCD. This design is simulated and analyzed by Zemax, and spectral resolution of 0.3 nm is realized at the band from 537 nm to 615 nm with a portable institutions. Image plane is analyzed in Zemax non-sequential mode. The whole band is in the receiving range of CCD, which proves the feasibility of this structure.

KW - Concave grating

KW - Portability

KW - Raman spectrometer

KW - Spectroscopy

KW - Zemax

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Optical design of concave grating Raman spectrometer

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Keywords

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