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Snapshot Imaging Spectrometer Based on Micro Imaging Mirror Array and Array Phase Mirror

An imaging spectrometer and micro-imaging technology, applied in the directions of interference spectroscopy, spectrometry/spectrophotometry/monochromator, instruments, etc., to achieve the effects of good real-time performance, strong stability and fast detection speed

Active Publication Date: 2020-03-06
CHANGCHUN INST OF OPTICS FINE MECHANICS & PHYSICS CHINESE ACAD OF SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The present invention provides a snapshot imaging spectrometer based on micro-imaging mirror arrays and array phase reflectors in order to solve the problems of real-time acquisition of three-dimensional atlas data cubes and miniaturization of imaging spectrometers in traditional imaging spectrometers

Method used

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  • Snapshot Imaging Spectrometer Based on Micro Imaging Mirror Array and Array Phase Mirror
  • Snapshot Imaging Spectrometer Based on Micro Imaging Mirror Array and Array Phase Mirror
  • Snapshot Imaging Spectrometer Based on Micro Imaging Mirror Array and Array Phase Mirror

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specific Embodiment approach 1

[0036] Specific implementation mode 1. Combination Figure 1 to Figure 19Description of this embodiment, a snapshot imaging spectrometer based on a micro-imaging mirror array and an array phase mirror, including a collimator 1, a micro-imaging mirror array 2, a beam splitter 3, a plane mirror 4, an array phase mirror 5, a relay Imaging mirror 6 and area array detector 7.

[0037] The collimating mirror 1 collimates the incident beam from the target scene into parallel light, and the micro-imaging mirror array 2 divides the parallel light in the horizontal space to form multiple parallel imaging channels, and arrays them on the focal plane of the image side Imaging: the beam splitter 3 equally divides the intensity of the array image field and then projects it onto the plane mirror 4 and the array phase mirror 5 respectively, so as to obtain two coherent image field arrays of the target. The plane mirror 4 and the array phase mirror 5 are in mirrored positions with respect to ...

Embodiment 1

[0067] Example 1: for Figure 8 The grid beam splitter shown in s is manufactured, and the material is a double-sided polished (100) single crystal silicon wafer with high flatness and high parallelism. Its preparation method is:

[0068] 1. Growth or evaporation of silicon dioxide and silicon nitride and other dielectric films or composite films on the cleaned double-sided polished single crystal silicon surface as a masking film;

[0069] 2. Directional photolithography to expose the side groove pattern, and remove the masking film in the side groove pattern by etching to expose the surface of the single crystal silicon. Use single crystal silicon anisotropic etching solution to etch the side groove, and the etching depth is equal to the final thickness of the beam splitter window; the shape of the side groove can also be formed by arranging multiple rectangles or squares at a certain distance apart from the figure shown in the figure.

[0070] 3. Perform a second photolit...

Embodiment 2

[0072] Embodiment 2: For both horizontal and vertical grid rib structures Figure 9 The double-sided grating beam splitter of f can be manufactured by the above method, the difference is that it is necessary to prepare a double-sided masking film, which is realized by double-sided photolithography and double-sided etching, and the upper and lower surface patterns are the same. In the first photolithographic etching, the sum of the etching depths of the upper and lower surface side grooves is the final thickness value of the beam splitter window.

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Abstract

A snapshot imaging spectrometer based on a micro-imaging mirror array and an array phase mirror relates to the technical field of infrared imaging spectral detection instruments, and solves the problems of real-time acquisition of three-dimensional map data cubes in traditional imaging spectrometers and the miniaturization of imaging spectroscopy instruments, including collimating mirrors , micro imaging mirror array, beam splitter, plane mirror, array phase mirror, relay imaging mirror and area array detector. An imaging spectroscopy instrument that uses a micro-imaging mirror array to perform multiple imaging of the target scene, and uses an array phase mirror to perform phase modulation on multiple image fields, through the imaging channel corresponding to the micro-imaging mirror array and the interference channel corresponding to the array phase mirror The light field coupling realizes the multi-channel snapshot interferometric imaging of the target scene without complex motion mechanism, and has the advantages of miniature, static, strong stability, high integration, and fast detection speed. The three-dimensional data cube with target map integrated can be obtained through one measurement, and the real-time performance is good.

Description

technical field [0001] The present invention relates to a snapshot infrared interference imaging spectrometer in the technical field of infrared imaging spectrum detection instruments, in particular to a device that utilizes a micro-imaging mirror array and an array phase reflector to perform multiple imaging and distributed phase modulation on a light field to realize interference imaging Multi-channel micro-snapshot infrared interferometric imaging spectrometer. Background technique [0002] Image features and spectral features are important means for people to identify substances, and the effective detection of target image and spectral features greatly improves people's ability to understand the world. Imaging feature detection is used to record the position and intensity information of objects, while spectral feature detection obtains wavelength-related information based on the emission, reflection, and transmission spectra unique to different substances. With the deve...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01J3/28G01J3/45G01J3/02
CPCG01J3/0205G01J3/0208G01J3/2803G01J3/2823G01J3/45
Inventor 吕金光梁静秋梁中翥王维彪秦余欣孟德佳陶金
Owner CHANGCHUN INST OF OPTICS FINE MECHANICS & PHYSICS CHINESE ACAD OF SCI