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Imaging method of high stability high spectral resolution interference imaging spectrograph and spectrograph

An interference imaging, high-stability technology, applied in the field of spectrometers, can solve the problems of low spectral resolution, complex system structure, low work efficiency, etc., and achieve the effects of high resolution, high scanning efficiency, and simple structure

Inactive Publication Date: 2007-04-11
XI'AN INST OF OPTICS & FINE MECHANICS - CHINESE ACAD OF SCI
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Problems solved by technology

[0005] The object of the present invention is to provide an imaging method of an interference imaging spectrometer with high stability and high spectral resolution and a spectrometer for realizing the method, which solves the problems of single-pixel sampling, low work efficiency, or system structure in the background technology. Technical problems of complexity, low scanning speed, poor stability, and relatively low spectral resolution

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  • Imaging method of high stability high spectral resolution interference imaging spectrograph and spectrograph
  • Imaging method of high stability high spectral resolution interference imaging spectrograph and spectrograph

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Embodiment Construction

[0057] Referring to Fig. 1, optical system of the present invention is mainly made of collimating lens 1, beam splitter 2, rotating mirror 3, corner reflector 5-6, front optical system 11 and Fourier lens 8; Interference system mainly is made of collimating lens 1. Beam splitter 2, rotating mirror 3, corner reflector 5-6, plane mirror 7 and Fourier lens 8. The detection system is mainly composed of a detector 9, and the information processing system is mainly composed of a computer processing system 12, see Figure 2.

[0058] Working principle of the present invention:

[0059] 1) When the rotating mirror 3 is stationary, the beam on the main optical axis is split into two beams by the beam splitter 2, and the optical paths of the two beams are equal.

[0060] 2) When the rotating mirror 3 rotates under the drive of the motor 4, the reflected light beam I split by the beam splitter 2 for the first time F , after multiple reflections by the rotating mirror 3 and the corner re...

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Abstract

The present invention is a high stability interference and high spectral resolution imaging spectrograph and its imaging process. The converted parallel target beam is separated in the beam splitter into a reflected beam and a transmitted beam. The reflected beam is reflected in the rotating mirror and the corner reflector, returned to the beam splitter and converged by the Fourier lens to form the first beam optical path. The transmitted beam is reflected in the corner reflector and the plane reflector, returned to the beam splitter and converged by the Fourier lens to form the second beam optical path. The corner reflector is moved synchronously along a plane perpendicular to the beam splitter to alter the optical path difference, and the interference spectrograms of different optical path differences are superposed and Fourier transformed to obtain restored target image in high spectral resolution. The present invention has high real-time property and is suitable for large area scanning.

Description

technical field [0001] The invention relates to a moving-mirror interference imaging method for quickly obtaining target interference spectrum and a spectrometer for realizing the method, in particular to an imaging method for an interference imaging spectrometer with high stability and high spectral resolution and a spectrometer for realizing the method. Background technique [0002] The earlier imaging spectrometer was the Michelson interferometric time-modulated space imaging Fourier transform spectrometer [D Simenoni. New concept for high-compact imaging Fourier transform spectrometer (IFTS)[ C]. SPIE, 1991, 1479: 127-138.], the Michelson interferometric time-modulated spatial imaging Fourier transform spectrometer developed by Lawrence Livermore Laboratory in the United States in 1995 [Michael R Carter, Charles L Bennett, DavidJ Fields, et al. Live more imaging Fourier transform spectrometer[C]. SPIE, 1995, 2480: 380-386.]. It adopts a linear reciprocating scanning met...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01J3/45G02B27/10
Inventor 苏丽娟相里斌袁艳
Owner XI'AN INST OF OPTICS & FINE MECHANICS - CHINESE ACAD OF SCI
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