CN207991476U - A kind of spatial phase shift interferometer - Google Patents

Abstract

The utility model provides a kind of spatial phase shift interferometer, including laser body, laser pick-off mechanism, interferometer and imaging lens, further include the first coaxial line and the second coaxial line, the laser body includes laser and expands integer mirror, the laser pick-off mechanism, interferometer and imaging lens are distributed on first coaxial line, the imaging lens and laser pick-off mechanism are respectively arranged at front side and the rear side of interferometer, the laser body is set to second coaxial line and is divided into the both sides of the imaging lens, when laser body launches laser beam, it is irradiated to the surface back reflection of target object, and two-way light beam is formed after the imaging lens and interferometer successively along the first coaxial line, it is managed by receiving area of laser pick-off mechanism.The spatial phase shift interferometer structure of the utility model is simple, acquisition image information is quick.

Description

A kind of spatial phase shift interferometer

Technical field

The utility model is related to a kind of optical interference instruments, and in particular to a kind of spatial phase shift interferometer.

Background technology

Using laser speckle as the carrier of tested object field change information, is generated and done after stimulated light irradiation using testee The related streak of speckle field is related to come the phase change between detecting after dual-beam wavefront, beam of laser is extended and projected by lens On the surface of object to be detected, reflected light is interfered with the reference light light beam for being projected directly at video camera from laser, in quilt The surface of irradiation generates speckle field and a series of speckle images；When object of which movement, these speckles can change therewith, these Variation symbolizes displacement field variation or the deformation data on testee surface；Image is obtained using CCD (charge coupling device) to believe Breath characterizes surface variation by software processing analysis, is shown by speckle interference fringe pattern and phase diagram.

Traditional interferometer is the light beam that laser is sent out, and is divided into two-way by spectroscope after beam-expanding collimation, and respectively from Stationary mirror and moving reflector reflect congregation and generate interference fringe on spectroscope, when moving reflector moves When, the light intensity variation of interference fringe is received by ccd image sensor, is handled, and phase shift is reached using mobile mirror method Purpose, this is time-phase displacement method.

The method of phase shift is generally divided into time-phase displacement and spatial phase shift, and time-phase displacement is several by being acquired in time sequential Width figure calculates phase；Spatial phase shift is to acquire a width figure in synchronization, includes different space phase information in the figure, uses One width figure can calculate phase；There are deficiencies below for time-phase displacement technology：Complicated, optical element distribution is more；Acquisition figure The picture time is long, is unfavorable for quickly detecting.

Utility model content

The utility model for overcome the deficiencies in the prior art, be to provide it is a kind of simple in structure, being capable of Quick Acquisition letter The spatial phase shift interferometer of breath.

Realize that above-mentioned purpose the technical solution of the utility model is a kind of spatial phase shift interferometer, including laser transmitter Structure, laser pick-off mechanism, interferometer and imaging lens further include the first coaxial line and the second coaxial line, the laser transmitter Structure includes laser and expands integer mirror, and it is same that the laser pick-off mechanism, interferometer and imaging lens are distributed in described first On axis, the imaging lens and laser pick-off mechanism are respectively arranged at front side and the rear side of interferometer, the laser transmitter Structure is set to second coaxial line and is divided into the both sides of the imaging lens, when laser body launches laser beam, It is irradiated to the surface back reflection of target object, and two are formed after the imaging lens and interferometer successively along the first coaxial line Road light beam is managed by receiving area of laser pick-off mechanism.

Further, the laser is one kind of relevant light laser, semiconductor laser or pump laser, this reality It can be determined by area of detection size with the quantity of novel middle laser and power, from 1 to 20.

Further, the laser pick-off mechanism includes space phase shifter and Charged Couple photosensitive element, the space phase Device and Charged Couple photosensitive element Seamless integration- one are moved, and the space phase shifter is distributed on rear side of the interferometer, it is described Charged Couple photosensitive element is distributed in the rear side of space phase shifter.

Further, a kind of spatial phase shift interferometer further includes an image processor, the connection of described image processor The Charged Couple photosensitive element first passes through the space phase shifter and changes laser after laser pick-off mechanism receives laser beam The phase of beam, after acquired by the Charged Couple photosensitive element, information biography acquire by the Charged Couple photosensitive element Transport to image processor processing.

Further, a kind of spatial phase shift interferometer further includes control process mechanism, is separately connected the laser Trigger mechanism and laser pick-off mechanism, the control process mechanism can control the amount of laser light of the laser, and can be to the figure As the data of processor are handled.

Further, the laser beam forms two-way light beam after the interferometer comprising R beams light and T beam light, shape At interference.

Further, angle theta is formed between first coaxial line and the second coaxial line, ranging from 0 ° of the angle theta- 90°。

Further, the laser body, laser pick-off mechanism, interferometer and imaging lens are installed in same machine In structure.

Further, the Charged Couple photosensitive element is one kind of ccd image sensor or cmos image sensor.

Further, the integer mirror that expands is spherical beam expanding lens.

Further, the interferometer is through mode spectroscope.

Further, the space phase shifter includes pedestal and several phase-shift units being set on pedestal, wherein Each phase-shift unit includes n phase shift steps of varying thickness, and the difference in height of adjacent two-phase moving stage rank is λ/n, wherein λ is light Wave wavelength, and it is integrated in each phase-shift unit structure all same on pedestal；Laser beam after interferometer detaches and forms interference, By each phase-shift unit in space phase shifter, adjacent phase has fixed difference, can obtain phase difference (the i.e. phase of the two Shifting amount) it is 2 π/n, phase change of the light wave in a wavelength is 0~2 π, therefore passes through the phase of the light after two-phase moving stage rank The ratio of thickness difference and wavelength that difference both is equal to can obtain at least 3 width phase differences multiplied by with 2 π in one phase-shift unit The moire patterns known can obtain the phase of corresponding location of pixels as long as obtaining the moire patterns of the above known phase difference of three width； Since each phase-shift unit is corresponding with a pixel of the tabula rasa on CCD camera lenses, a pixel record one on tabula rasa The moire patterns of a phase-shift unit, the corresponding phase for obtaining a respective pixel location on testee finally；By multiple and phase shift The phase combination of the corresponding tested surface of unit can obtain the complete phase of entire tested surface together, so as to calculate to obtain tested surface Deflection.

The beneficial effects of the utility model：Interferometer is few using optical element, is conducive to integrate, can make instrument miniaturization； In one, each phase-shift unit can measure location of pixels for space phase shifter and Charged Couple photosensitive element Seamless integration- Phase so that each location of pixels on tested surface can measure phase, greatly improve measurement accuracy；Spatial phase shift interferometer By using space phase shifter, all phase-shift units are integrated in space phase shifter, and are installed on interferometer and are made instrument knot Structure is simple, small, reduces equipment instrument and weight；On the other hand, each phase-shift unit structure being integrated on pedestal is complete It is identical, therefore the even intensity of divided beams that each phase-shift unit separates, be conducive to the precision for improving detection.

Description of the drawings

Fig. 1 is the preferred embodiment structure diagram of the utility model；

Fig. 2 is the preferred embodiment module frame chart of the utility model.

In figure, laser body 10, laser 101 expands integer mirror 102, laser pick-off mechanism 20, space phase shifter 201, Charged Couple photosensitive element 202, imaging lens 30, interferometer 40, the first coaxial line 50, the second coaxial line 60, at control Manage mechanism 70, target object 80.

Specific implementation mode

In the present embodiment, referring to Figures 1 and 2, a kind of spatial phase shift interferometer, including laser body 10, laser connect Mechanism 20, interferometer 40 and imaging lens 30 are received, further include the first coaxial line 50 and the second coaxial line 60,50 He of the first coaxial line Angle theta is formed between second coaxial line 60, the angle theta is that 30 ° of laser bodies 10 include laser 101 and expand Integer mirror 102, the laser pick-off mechanism 20, interferometer 40 and imaging lens 30 are distributed on first coaxial line 50, The imaging lens 30 and laser pick-off mechanism 20 are respectively arranged at front side and the rear side of interferometer 40, the laser body 10 are set to second coaxial line 60 and are divided into the both sides of the imaging lens 30, when laser body 10 launch it is sharp Light beam is irradiated to the surface back reflection of target object 80, and by the imaging lens 30 and is done successively along the first coaxial line 50 Two-way light beam is formed after relating to device 40 comprising R beams light and T beam light form interference, are handled by 20 reception of laser pick-off mechanism；Its In, the laser 101 is relevant light laser, and the integer mirror 102 that expands is spherical beam expanding lens, and the interferometer 40 is Formula spectroscope is crossed, the laser body 10, laser pick-off mechanism 20, interferometer 40 and imaging lens 30 are installed in same In mechanism.

Laser pick-off mechanism 20 includes space phase shifter 201 and Charged Couple photosensitive element 202, and the Charged Couple is photosensitive Element 202 is ccd image sensor, and the space phase shifter 201 and 202 Seamless integration- of Charged Couple photosensitive element are integrated, and The space phase shifter 201 is distributed in 40 rear side of the interferometer, and the Charged Couple photosensitive element 202 is distributed in spatial phase shift The rear side of device 201.

A kind of spatial phase shift interferometer further includes an image processor, and described image processor connects the Charged Couple sense Optical element 202 first passes through the phase that the space phase shifter 201 changes laser beam after laser pick-off mechanism 20 receives laser beam Position, after acquired by the Charged Couple photosensitive element 202, information biography acquire by the Charged Couple photosensitive element 202 Transport to image processor processing；A kind of spatial phase shift interferometer further includes control process mechanism 70, is separately connected the laser Trigger mechanism 10 and laser pick-off mechanism 20, the control process mechanism 70 can control the amount of laser light of the laser 101, and can The data of described image processor are handled.

Space phase shifter 201 includes pedestal and several phase-shift units being set on pedestal, wherein each phase shift list Member includes n phase shift steps of varying thickness, and the difference in height of adjacent two-phase moving stage rank is λ/n, wherein λ is optical wavelength, and is collected At in each phase-shift unit structure all same on pedestal；Laser beam passes through space after the separation of interferometer 40 and forming interference Each phase-shift unit in phase-shifter 201, adjacent phase have fixed difference, can obtain the phase difference (i.e. phase-shift phase) of the two For 2 π/n, phase change of the light wave in a wavelength is 0~2 π, therefore is equal to by the phase difference of the light after two-phase moving stage rank The thickness difference of the two and the ratio of wavelength can be obtained in one phase-shift unit and be done known at least 3 width phase differences multiplied by with 2 π Figure line is related to, as long as obtaining the moire patterns of the above known phase difference of three width, the phase of corresponding location of pixels can be obtained；Due to every One phase-shift unit is corresponding with a pixel of the tabula rasa on CCD camera lenses, therefore one phase shift of a pixel record on tabula rasa The moire patterns of unit, the corresponding phase for obtaining a respective pixel location on testee finally；By multiple and phase-shift unit pair The phase combination for the tested surface answered can obtain the complete phase of entire tested surface together, so as to calculate tested surface deformation Amount.

The utility model is described in detail above, it is described above, only the preferred embodiment of the utility model and , when the utility model practical range cannot be limited, i.e., all according to the made equivalent changes and modifications of the application range, it all should still belong to this In utility model covering scope.

Claims (8)

1. a kind of spatial phase shift interferometer, including laser body, laser pick-off mechanism, interferometer and imaging lens, special Sign is：Further include the first coaxial line and the second coaxial line, the laser body includes laser and expands integer mirror, institute It states laser pick-off mechanism, interferometer and imaging lens to be distributed on first coaxial line, the imaging lens and laser connect Front side and rear side that mechanism is respectively arranged at interferometer are received, the laser body is set to second coaxial line and sets up separately In the both sides of the imaging lens, when laser body launches laser beam, it is irradiated to the surface back reflection of target object, and Two-way light beam is formed after the imaging lens and interferometer successively along the first coaxial line, by receiving area of laser pick-off mechanism Reason.

2. a kind of spatial phase shift interferometer according to claim 1, it is characterised in that：The laser pick-off mechanism includes sky Between phase-shifter and Charged Couple photosensitive element, the space phase shifter and Charged Couple photosensitive element Seamless integration- one, and institute It states space phase shifter to be distributed on rear side of the interferometer, the Charged Couple photosensitive element is distributed in the rear side of space phase shifter.

3. a kind of spatial phase shift interferometer according to claim 2, it is characterised in that：Further include an image processor, institute It states image processor and connects the Charged Couple photosensitive element, after laser pick-off mechanism receives laser beam, first pass through the sky Between phase-shifter change laser beam phase, after by the Charged Couple photosensitive element acquire, by the Charged Couple photosensitive element The information acquired is transmitted to image processor processing.

4. a kind of spatial phase shift interferometer according to claim 1, it is characterised in that：The laser beam passes through the interference Two-way light beam is formed after device comprising R beams light and T beam light form interference.

5. a kind of spatial phase shift interferometer according to claim 1, it is characterised in that：First coaxial line and second is together Form angle theta between axis, ranging from 0 ° -90 ° of the angle theta.

6. a kind of spatial phase shift interferometer according to claim 2, it is characterised in that：The Charged Couple photosensitive element is One kind of ccd image sensor or cmos image sensor.

7. a kind of spatial phase shift interferometer according to claim 1, it is characterised in that：The integer mirror that expands is spherical expands Shu Jing.

8. a kind of spatial phase shift interferometer according to claim 4, it is characterised in that：The interferometer is divided for through mode Mirror.