A dual-channel differential polarization interference imaging spectrometer

Abstract

The invention relates to a double-channel differential polarizing interference imaging spectrometer, which comprises a collimating lens, a Wollaston prism, a Savart polarizer, a linear polarizer, an imaging lens, a plane array detector, a connecting lead and a computer processing system, wherein after light emitted by a target passes through the double-channel differential polarizing interference imaging spectrometer, interference images of a parallel component and a vertical component of the target can be acquired by using the plane array detector; the interference images are input to the computer processing system through the connecting lead, and Fourier transformation and image fusion processing are respectively performed on the two interference images, so that spectral images of the parallel component and the vertical component of the target can be inversed; the difference of the two spectral images is a differential polarizing spectral image of the target; and the ratio of the difference of the two spectral images to the sum of the two spectral images is a linear polarizing spectral image of the target. The spectrometer has the advantages of simple and compact structure, high sampling precision, good stability, no rotary component, and capability of acquiring the differential polarizing spectral image and the linear polarizing spectral image of the target.

Description

technical field [0001] The invention belongs to the technical field of optical image processing instruments, in particular to a structure of a dual-channel differential polarization interference imaging spectrometer. Background technique [0002] Polarization and spectral information are two important information in the field of remote sensing. Polarization can provide high-contrast shape information of the target, while spectrum can provide attribute information of the target. Differential polarization imaging spectroscopy technology is a technology to simultaneously obtain the spectral image of the parallel and vertical polarization components of the target. The difference between the two components is a high-contrast differential polarization spectral image. The ratio of the difference between the two components and the sum of the two components is Target degree of linear polarization. There are many kinds of remote sensing instruments to obtain target polarization and s...

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Problems solved by technology

However, since the polarization direction of the front polarizer in this system is fixed, only the spectral information of the polarization component in the direction of the polarizer can be obtained, but the spectral information of the polarization component perpendicular to it cannot be obtained, which belongs to the single-channel polarization spectrometer

U.S. Patent (Patent No. 6,177,984B1) discloses a technology that uses a rotating polarizer to obtain orthogonally polarized images of epithelial tissue; since the two images are acquired sequentially, if the target changes rapidly, the content of the two images will change. different; and the rotating polarizer will introduce disturbance, which is not easy to calibrate; more importantly, the system cannot obtain spectral information

French scholars have reported a dual-channel differential polarization imager without rotating components, which can quickly obtain the polarization images of the parallel and vertical components of the target. Unfortunately, the system also cannot obtain the spectral information of the target.

[0003] U.S. Patent (Patent No.: 2002/0171831) discloses a differential polarization spectroscopy technique for measuring tissue backscattering spectra. The system uses a combination of two linear polarizers and a dual-channel dispersive spectrometer to simultaneously obtain the orthogonal polarization of its target. The spectrum of the component; but the system cannot obtain the image information of the target; and the response arrays of t

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