Feasibility Study of Scanning Spectral Imaging Based on a Birefringence Flat Plate
Ilan Gadasi, Yoel Arieli

TL;DR
This paper explores a new hyperspectral imaging system using a birefringent plate and scanning interferometry to simplify setup while improving performance.
Contribution
A novel hyperspectral imaging concept using a birefringent plate and scanning interferometry is proposed and analyzed for feasibility.
Findings
A birefringent plate can generate chirped cosine interferograms for spectral analysis.
The proposed system can convert a monochrome camera into a hyperspectral one with minimal components.
Signal processing algorithms successfully retrieve spectral information from the interferograms.
Abstract
Hyper-spectral imaging (HSI) systems can be divided into two main types as follows: a group of systems that includes a dedicated dispersion/filtering component whose role is to physically separate the different wavelengths and a group of systems that sample all wavelengths in parallel, so that the separation into wavelengths is performed by signal processing (interferometric method). There is a significant advantage to systems of the second type in terms of the integration time required to obtain a signal with a high signal-to-noise ratio since the signal-to-noise ratio of methods based on scanning interferometry (Windowing method) is better compared to methods based on dispersion. The current research deals with the feasibility study of a new concept for an HSI system that is based on scanning interferometry using the “push-broom” method. In this study, we investigated the viability of…
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Taxonomy
TopicsOptical Polarization and Ellipsometry · Optical Imaging and Spectroscopy Techniques · Spectroscopy and Chemometric Analyses
