CN1831517A

CN1831517A - Miniature portable infrared spectrograph

Info

Publication number: CN1831517A
Application number: CN 200610070845
Authority: CN
Inventors: 温志渝; 向贤毅; 杜晓晴
Original assignee: Chongqing University
Current assignee: Chongqing Major Intellectual Property Operations Co ltd; Wen Zhiyu
Priority date: 2005-09-27
Filing date: 2006-03-14
Publication date: 2006-09-13
Anticipated expiration: 2026-03-14
Also published as: CN100443885C

Abstract

A minimized and portable infrared spectrograph is composed of pulse infrared ray source, parabolic reflector, scanning micro - lens, flash grating, steering reflector, slit and high sensitivity of room temperature infrared unit detector. It features that a new light path system and pulse infrared ray source based on MEMS technology are applied on said spectrograph.

Description

A kind of miniature portable infrared spectrograph

Technical field

The invention belongs to the spectral measurement methods field, relate to a kind of microminiature portable infrared spectrograph based on scanning micro-mirror and pulse infrared light source.

Background technology

Infrared spectrometer has strong absorption characteristic spectrum owing to contain hydrogen group and carbon compound etc. near infrared and middle infrared spectral region, we utilize this character can determine the composition of material, and this makes infrared spectrometer in industry, agricultural, chemical industry, medicine and other fields extensive application.But the light splitting technology that existing infrared spectrometer adopts mainly comprises grating scanning type, Fourier formula, optical filtering chip, acousto-optic tunable etc., and deficiency is separately all arranged.

The raster scanning beam splitting system is to utilize grating as beam splitter, and by raster, and the polychromatic light of incident is decomposed into to be distributed in full wavely provides optional spectral width very narrow monochromatic light.This light splitting technology is full-fledged, is widely used, and major advantage is the wavelength band broadness, and is even in all band chromatic dispersion, and monochromatic wavelength can reach accurate control.But it has the following disadvantages: sweep velocity is slow, the wavelength poor reproducibility, and inner moving-member is many.

The Fourier transform spectrometer is the Fourier transform relation of utilizing between spectrum pixel interferogram and the spectrogram, by measuring interferogram and interferogram being carried out the spectral information that Fourier transform obtains object.Fourier transform spectrometer luminous flux is big, and the spectral resolution height is with the obvious advantage aspect weak radiation detection.But because the existence of index glass in the interferometer, the reliability of instrument is restricted, particularly using and placing environment strict demand is arranged instrument.And it cost an arm and a leg, bulky is mainly used in the laboratory.

Optical filtering chip spectrometer architecture is simple, but resolution is very low, only is suitable for special purposes.Acousto-optic tunable formula spectrometer resolution is higher, and volume is also less, but general wave spectrum scope is narrower, and costs an arm and a leg.

So infrared spectrometer is only the only way out to microminaturization, low cost, wide spectrum, high precision development.Utilize the micro-processing technology of MEMS and MOEMS to make the focus direction that the integrated miniature spectrometer is the microminiaturized development of spectrometer.The people such as F.Zimmer of Germany have proposed the near infrared spectrometer of a kind of spectral range of the MOEMS of use fabrication techniques at 900-2000nm, it is based on the scanning micro-mirror technology, but the surface of this micro mirror is the diffraction structure of aluminizing, the still grating that also promptly scans, but the problem of this mode maximum is the unusual difficulty of processing of used low-light grid, and patent employing micro mirror of the present invention is a plane mirror, is easier to processing.

Summary of the invention

The objective of the invention is to deficiency at the prior art existence, a kind of miniature portable infrared spectrograph is provided, it adopts a kind of brand-new light path system that is different from traditional sweep type spectrometer, change is based on the scheme of non-photon type choppers that detector adopts such as pyroelectricity or PbSe, directly adopt the pulse infrared light source of miniaturization, and adopt swing to scan based on the mode of the miniature planar catoptron of MEMS technology, thereby simplied system structure is really realized the microminiaturization of infrared spectrometer greatly.

Microminiaturized infrared spectrometer provided by the invention is made up of pulse infrared light source, parabolic mirror, scanning micro-mirror, blazed grating, steering reflection mirror, slit and room temperature infrared unit detector.Described pulse infrared light source places near the parabolic reflector mirror foci, place scanning micro-mirror in the parallel light path behind parabolic mirror, in the reflected light path of micro mirror, be right after blazed grating, but the oscillatory scanning micro mirror here both reflexed to the polychromatic light that parabolic mirror incident comes on the blazed grating, again the monochromatic collimated beam after the blazed grating beam split is reflexed to the enterprising line convergence of parabolic mirror, in assembling light path, a steering reflection mirror is set then, and near the focus of assembling, slit is set, slit is provided with room temperature infrared unit detector behind, the monochromatic light of telling incides on the room temperature infrared unit detector by slit, and realizes the scanning of monochromatic light on detector by the scanning micro-mirror swing.

System light path structure of the present invention is different from traditional scanning sub-ray spectrometer.Thereby conventional spectrometers is to realize beam split by rocking grating, and generally is the symmetrical structure realization beam split of adopting collimator objective respectively and assembling object lens.Light path among the present invention is only used a slice parabolic mirror, not only makees collimator objective but also assemble object lens, thereby and directly scans miniature planar catoptron in the parallel light path rather than raster realizes beam split.

Used pulse infrared light source is a kind of MEMS of having technology band parabolic mirror infrared light supply, and operation wavelength covers to middle infrared, so the service band of spectrometer can be selected different pulse infrared light sources and extend to mid and far infrared by near infrared.Pulse infrared light source is used diamond carbon thin film technique, heating and generation infrared radiation behind the galvanization.Its high emissivity, high thermal conductivity, and very low hot residence characteristics make it when high-frequency impulse is worked, and energy Fast Heating and cooling can be worked as the fast modulation element under continuous operation mode and pulse mode.And its parabolic mirror has been strengthened the axial infrared energy more than 10 times, has better advantage than other light source.And because the light-emitting area of this light source can be as small as 1-2mm ², the occasion not high to resolution requirement can be saved slit fully, and structure is further simplified.The infrared pulse light source that adopts only is equivalent to thumb head size, has replaced traditional large-scale light source as the silit infrared light supply, thereby and can make full use of luminous energy according to the angle of divergence design corresponding optical system of light source.According to American I N OPTICS, the miniature pulse infrared light source of the RFIR-55 that INC provides, Frequency Adjustable output, the highest can be to 100Hz, from and saved bulky chopper assembly.

Said scanning micro-mirror is a kind of micro optical element based on the MEMS technological development, its essence is one can rotational angle plane mirror, not bright and take the report at research institute microtechnology center according to Germany, the micro mirror volume that they are produced only is equivalent to the size of a little eyeglass, but can realize the corner more than 10 °, and can reach higher sweep frequency.In system of the present invention, this micro mirror places parallel light path, both the polychromatic light that parabolic mirror incident is come reflexed on the grating, again the reflection of monochromatic light after the beam split on parabolic reflector, and can realize the scanning of monochromatic light on detector by swinging it.

Advantage of the present invention:

1, the novel beam split light path system of Cai Yonging, assembly is few, and is simple in structure, really realized the microminiaturization of infrared spectrometer.

2, adopt the miniature pulse infrared light source of MEMS technology, replaced traditional large-scale infrared light supply.

3, adopt the direct pulsed modulation of infrared light supply, reduced the chopper assembly in the conventional spectrometers system.

4, adopt swing to scan, rather than adopt the mode of scanning step motor grating based on the mode of the miniature planar catoptron of MEMS technology, simplied system structure greatly, volume is little, the precision height, stable performance is suitable for moving portable use.

5, incorporate miniaturized design thinking has realized the modular design of infrared spectrometer, and cheap.

Description of drawings

Fig. 1 is a structure principle chart of the present invention.

1 indicating impulse infrared light supply among the figure, the 2nd, parabolic mirror, 3 is scanning micro-mirror, the 4th, blazed grating, the 5th, steering reflection mirror, the 6th, slit, the 7th, room temperature infrared unit detector.

Embodiment

The invention will be further described below in conjunction with accompanying drawing

Referring to Fig. 1, this spectrometer is made up of pulse infrared light source 1, parabolic mirror 2, scanning micro-mirror 3, blazed grating 4, steering reflection mirror 5, slit 6, room temperature infrared unit detector 7.The modulated pulsed infrared light that pulse infrared light source 1 sends, be that the infrared beam that pointolite sends is regarded in very little being similar to of a beam divergence angle as, when light beam incides on the parabolic mirror 2, because pointolite can be regarded as on the focus of parabolic mirror 2, so light beam becomes parallel beam after reflecting through parabolic mirror 2; Directional light reflexes on the blazed grating 4 through scanning micro-mirror 3, by the grating diffration effect, continuous spectrum is broken down into the multi beam monochromatic collimated beam, these monochromatic collimated beams incide on the parabolic mirror 2 through scanning micro-mirror 3 again, and then assemble, in assembling light path, adopt steering reflection mirror 5 that the monochromatic light that reflects is turned to, and get at last through slit 6 on the photosurface of high sensitivity room temperature infrared detector 7.Then, the swing by scanning micro-mirror 3 drops on the detector photosurface different monochromatic luminous points successively, thereby has collected the energy signal of different wavelengths of light, and these signals input computing machines just can carry out spectrum identification processing.

Claims

1. miniature portable infrared spectrograph, it is characterized in that: it is made up of pulse infrared light source (1), parabolic mirror (2), scanning micro-mirror (3), blazed grating (4), steering reflection mirror (5), slit (6) and room temperature infrared unit detector (7); Described pulse infrared light source (1) places near parabolic mirror 2 focuses, place scanning micro-mirror (3) in the parallel light path behind parabolic mirror (2), and in the reflected light path of scanning micro-mirror (3), be right after blazed grating (4), scanning micro-mirror (3) both reflexed to the polychromatic light that parabolic mirror (2) incident comes on the blazed grating (4), again the monochromatic collimated beam after blazed grating (4) beam split is reflexed to the enterprising line convergence of parabolic mirror (2), and in assembling light path, a steering reflection mirror (5) is set, behind steering reflection mirror (5), also near the focus of promptly assembling slit (6) is set, slit (6) is provided with room temperature infrared unit detector (7) behind, the monochromatic light of telling incides on the room temperature infrared unit detector (7) by slit (6), and realizes the scanning of monochromatic light on detector by the swing of scanning micro-mirror (3).

2. according to the described miniature infrared spectrometer of claim 1, it is characterized in that: pulse infrared light source (1) is the continuous infrared light supply of wide spectrum that adopts MEMS technology Frequency Adjustable.

3. according to the described miniature infrared spectrometer of claim 1, it is characterized in that: scanning micro-mirror (3) is based on the miniature planar catoptron of swinging of MEMS technology.

4. according to the described miniature infrared spectrometer of claim 1, it is characterized in that: described room temperature infrared unit detector is to adopt non-photon type high sensitivity room temperature infrared unit detector.