The hyperspectral imaging achieved by aberration-corrected freeform concave blaze grating with variable line spacing

Cheng-Hao Ko; Jih-Run Tsai; Bang-Ji Wang; Shin-Fa Lin; Chitsung Hong; Wei-Huai Chiu

doi:10.1117/12.2322052

17 September 2018 The hyperspectral imaging achieved by aberration-corrected freeform concave blaze grating with variable line spacing

Cheng-Hao Ko, Jih-Run Tsai, Bang-Ji Wang, Shin-Fa Lin, Chitsung Hong, Wei-Huai Chiu

Author Affiliations +

Proceedings Volume 10746, Novel Optical Systems Design and Optimization XXI; 1074605 (2018) https://doi.org/10.1117/12.2322052
Event: SPIE Optical Engineering + Applications, 2018, San Diego, California, United States

Abstract

To design a concave grating for a hyperspectral imaging (HSI) system, it is critical to achieve flat field focusing in both the horizontal and vertical directions on the image sensor. We have developed a generalized automation aberration reduction procedure (ARP) that can be applied in any cases of a concave grating spectrometer. The concave grating, which has a free-form profile with blaze grating pitch and variable line spacing [3], is fabricated using five-axis CNC machine with nanometer machining precision for hyperspectral imaging. In order to evaluate the performance, an optical system is designed and setup to measure the focused spot size, spectral resolution and diffraction efficiency.

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Cheng-Hao Ko, Jih-Run Tsai, Bang-Ji Wang, Shin-Fa Lin, Chitsung Hong, and Wei-Huai Chiu "The hyperspectral imaging achieved by aberration-corrected freeform concave blaze grating with variable line spacing", Proc. SPIE 10746, Novel Optical Systems Design and Optimization XXI, 1074605 (17 September 2018); https://doi.org/10.1117/12.2322052

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KEYWORDS

Hyperspectral imaging

Optical design

Diffraction gratings

Diffraction

Image sensors

Imaging systems

Spectral resolution

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