CN202614507U

CN202614507U - Device for rapidly detecting optical properties of large-caliber optical element

Info

Publication number: CN202614507U
Application number: CN 201220285215
Authority: CN
Inventors: 吴周令; 陈坚; 吴令奇
Original assignee: HEFEI ZHICHANG PHOTOELECTRIC TECHNOLOGY CO LTD
Current assignee: HEFEI ZHICHANG PHOTOELECTRIC TECHNOLOGY CO LTD
Priority date: 2012-06-18
Filing date: 2012-06-18
Publication date: 2012-12-19
Anticipated expiration: 2022-06-18

Abstract

The utility model discloses a device for rapidly detecting optical properties of a large-caliber optical element. The device comprises a pumping light source, a pumping optical energy recovery reflector, a pumping optical beam absorbing device, a probing optical source, a probing optical beam shaping device, a polarization beam splitter, a quarter-wave plate arranged behind the output end of the polarization beam splitter, a space filter array, a filtering sheet and a photoelectric prober array, wherein the probing optical beam shaping device and the polarization beam splitter are sequentially arranged behind the output end of the probing optical source; and the space filter array, the filtering sheet and the photoelectric prober array are sequentially arranged behind the reflection output end of the polarization beam splitter. According to the device for rapidly detecting the optical properties of the large-caliber optical element provided by the utility model, the pumping optical energy recovery reflector recoveries and repeatedly uses laser energy reflected by a tested sample, so that the optical property detecting speed of the large-caliber optical element is greatly improved. The device can be used for a plurality of fields of photo-thermal nondestructive examination, photo-thermal precise measurement, optical absorption spectrum, photo-thermal imaging, defect analysis and the like, and is particularly applicable to rapid detection and imaging of a weak absorption property of a large-caliber laser mirror.

Description

The device for fast detecting of optical elements of large caliber optical characteristics

Technical field

The utility model relates to the photo-thermal detection range, thereby specifically is a kind ofly to utilize the laser energy that the energy recovery mirror reflects out to sample to recycle and reuse the device that increases substantially optical elements of large caliber optical characteristics detection speed.

Background technology

Optical elements of large caliber is an indispensable key element in all kinds of large laser system.Whether its optical characteristics can meet design requirement usually is the key that can relevant large laser system successful operation.Optical elements of large caliber; Optical elements of large caliber especially for strong laser system; Usually its optical absorption characteristic is had relatively high expectations, require average absorption less on the one hand, hope that on the other hand absorption characteristic is more even; Reduce the existence of local bigger absorption defective, in order to avoid produce the decline of local laser damage or local laser beam quality as far as possible.Yet the precision measurement of optical elements of large caliber absorption characteristic does not have special effective method at present, and particularly fainter when the optical elements of large caliber absorptance, and the while is when need obtain the spatial characteristics of this absorption.

For optical element; Faint absorption optical element especially for strong laser system; The measuring method commonly used of its absorption characteristic comprises laser calorimetry and other kinds photo-thermal measuring method, like photothermal deflection method, the surface thermal lens method based on the photo-thermal surface deformation; Based on the photothermal deflection method of photo-thermal refractive index, thermal lens method etc.These methods all have sensitivity, and very high (absorptivity is measured sensitivity can reach 10 ^-7-10 ^-8Magnitude), characteristics such as spatial resolution higher (can be relatively easy to reach micron even sub-micrometer scale transverse spatial resolution), non-contact measurement.

With the surface thermal lens technology is example, and its ultimate principle is: material raises because of the absorbing light energy causes local temperature at pump light effect lower surface, thereby produces thermal deformation.The space distribution of thermal deformation and being closely related with pump light parameter and material behavior over time.This surface deformation can cause the variation of reflected light wavefront properties, produces and is similar to the convergence or the effect weakening of lens, thereby be referred to as the surface thermal lens effect.

Utilize the surface thermal lens effect to carry out that material behavior detects and the common methods analyzed is that a branch of pump light through ovennodulation produces thermal deformation at the sample spatial induction, utilize another bundle to survey light simultaneously and come the searching surface thermal deformation.Adding a spatial filter through the appropriate location in the detection light path behind the sample, changing the information that obtains surface heat deformation through the detection luminous energy of measuring through spatial filter entering photo-detector, thereby obtain the characteristics such as absorption of corresponding material.For obtaining response preferably, generally need utilize phaselock technique in this measuring method.Two-dimensional detection to sample characteristics of for example then need obtain through sample is carried out point by point scanning.

Yet this two-dimensional scan method will be very limited when being applied to optical elements of large caliber.Main cause is that detection and image taking speed are too slow.On the one hand since signal a little less than, all to carry out the lock phase integral of certain hour to each sample spot; On the other hand, sample moves at every turn and all need spend certain moving and the stand-by period, so that total system can both reach new balance from the mechanical shock to the local temperature.Directly being used for optical elements of large caliber to this technology measures; Be infeasible basically in the practical application: faint absorption of laser mirror and the space distribution thereof of supposing to measure in this way one (1 meter x 1 meter); Even spatial resolution is only required 500 microns (are 500 microns samplings of per 500 microns x a bit); Having scanned whole sample so need 556 hour (suppose every bit moves prepare and integral measurement time accumulative total only needs 500 milliseconds), and this is very unpractical in practical application.

The utility model content

The technical matters that the utility model will solve provides a kind of device for fast detecting of optical elements of large caliber optical characteristics; Utilize the energy recovery mirror that the laser energy that sample reflects is is out recycled and reused, solve and to utilize photo-thermal effect to carry out in the optical elements of large caliber absorptiometry process because consuming time long and can not satisfy the problem of actual request for utilization.

The technical scheme of the utility model is:

The device for fast detecting of optical elements of large caliber optical characteristics; Comprise pump light source, probe source, photodetector, the optical filter that is arranged at the photodetector front end and spatial filter; It is characterized in that: the device for fast detecting of described optical elements of large caliber optical characteristics also includes pump energy and reclaims catoptron; The pump beam absorption plant; Be arranged at detecting light beam apparatus for shaping and polarization spectroscope behind the probe source output terminal in order, be arranged at quarter-wave plate behind the polarization spectroscope transmission output terminal; After described spatial filter array, optical filter and photodetector array all are arranged at polarization spectro mirror reflection output terminal.

Described detecting light beam apparatus for shaping is selected for use and is surveyed the optical diffraction light-dividing device or survey light light spot shape converting means.

Be provided with between described probe source and the detecting light beam apparatus for shaping and survey light beam shaping and disposal system; The rear end of described pump light source is provided with pump light beam shaping and disposal system.

Be provided with detection light focusing adjustment lens behind the output terminal of described quarter-wave plate with behind the polarization spectro mirror reflection output terminal.

The principle of the utility model:

Pump beam is inciding the lip-deep measurement point 1 of sample through beam shaping and after handling, and this pump light luminous power is P ₁Sample is the heavy caliber high reflectivity mirror, and its reflectivity is R ₁Be placed with a slice pump energy parallel with the sample surface in the sample adjacent domain and reclaim catoptron, its reflectivity is R ₂Pump beam by the sample reflection, incides the lip-deep measurement point 2 of sample through measurement point 1 back again after pump energy reclaims mirror reflects, this pump light luminous power is P ₂Luminous power is P ₂With luminous power P ₁Satisfy following relation:

P ₂=(R ₁R ₂)P ₁ (1)

So analogize, the pump light luminous power of measurement point N is P _N, P _NWith luminous power P ₁Satisfy following relation:

P _N=(R ₁R ₂) ^（N-1）P ₁ (2)

Suppose that it is R that pump energy reclaims reflectance of reflector ₂=99.98%, following table 1 has been listed at four kinds of different sample reflectivity R ₁Situation under in the pump light luminous power of sample different measuring point (measurement point 1 to measurement point 100) with respect to the P that concerns between its first measurement point pump light luminous power _N/ P ₁By finding out in the table, work as R ₁=99.95% o'clock, after recycling through 100 times, promptly at measurement point N=100 place, its pump light luminous power also had at 93% of measurement point 1 place's power, can continue to satisfy the photo-thermal measurement requirement fully; Work as R ₁=99.5% o'clock, after recycling through 100 times, promptly at measurement point N=100 place, its pump light luminous power also had at 60% of measurement point 1 place's power, also can continue to satisfy the photo-thermal measurement requirement fully; Work as R ₁=99% o'clock, after recycling through 100 times, promptly at measurement point N=100 place, its pump light luminous power also had at 36% of measurement point 1 place's power, still can satisfy the photo-thermal measurement requirement basically.That is to say that to most heavy caliber high reflectance optical elements this system based on pump energy recovery principle can reuse pump energy more than 100 times.

Work as R ₁=98% o'clock, after recycling through 100 times, promptly at measurement point N=100 place, its pump light luminous power is only at 13% of measurement point 1 place's power, and was on the low side.But at the N=50 place, its pump light luminous power also has at 37% of measurement point 1 place's power, still can satisfy the photo-thermal Testing requirement basically.Even that is to say to R ₁=98% is such than antiradar reflectivity large-aperture optical catoptron, and this system that reclaims principle based on pump energy also can reuse pump energy more than 50 times.

Measure dot number N	1	10	20	30	40	50	60	70	80	90	100
												PN/P1 (R1=0.9995)	1.00	0.99	0.99	0.98	0.97	0.97	0.96	0.95	0.95	0.94	0.93
PN/P1 (R1=0.9950)	1.00	0.95	0.91	0.86	0.82	0.77	0.74	0.70	0.66	0.63	0.60
												PN/P1 (R1=0.9900)	1.00	0.91	0.82	0.74	0.67	0.61	0.55	0.49	0.44	0.40	0.36
PN/P1 (R1=0.9800)	1.00	0.83	0.68	0.55	0.45	0.37	0.30	0.24	0.20	0.16	0.13

Table 1. is at four kinds of different sample reflectivity R ₁Pump light luminous power under the situation is with respect to the PN/P1 that concerns between its first measurement point pump light luminous power.

Pump light (comprising the part that reclaims through the energy recovery catoptron) shines position different on the sample surfaces (measurement point 1 to measurement point N); All can cause corresponding surface heat deformation at every bit, this thermal deformation can detect through the surface thermal lens technology.When utilizing the surface thermal lens technology to detect, surveying light can be with the detecting light beam group with N light beams, the corresponding measurement point of each bundle detecting light beam; Surveying light also can be a branch of linear or oval detection hot spot, and the long axis direction of surveying hot spot is consistent with the orientation of N measurement point, and overlapping with all measurement points.

The utility model is no matter be to utilize the diffraction light-dividing device that detecting light beam is carried out the multiple beam beam split; Still utilize cylindrical lens to make detecting light beam have linear or oval hot spot; The photo-thermal signal that final photodetector array obtains all need utilize parallel processing circuit to handle, and locks phase integral.

The advantage of the utility model:

Because energy recovery utilizes number of times can reach more than 100 times, the speed of coherent detection can obtain the raising of corresponding multiple under the constant situation of pumping light power.As previously mentioned, measure the faint absorption of laser mirror and the space distribution thereof of one (1 meter x 1 meter), need 556 hours with traditional photo-thermal measuring method; And use is based on the measuring method and the device of the utility model; Under similarity condition, can improve 100 times (supposing that energy recovery utilizes number of times to be N=100) to detection speed; So, the same sample of view picture scanning survey only needs 5.56 hours, becomes practical.

The utility model also is applicable to middle-size and small-size bore optical element measurement.When being used for middle-size and small-size bore optical element, the utility model can keep reducing the power requirement to pump light source significantly under the suitable situation of measuring speed, thereby reduces cost, the volume and weight of related measuring system significantly.

Description of drawings

Fig. 1 is the structural representation of the utility model embodiment 1.

Fig. 2 is the structural representation of the utility model embodiment 2.

Embodiment

Embodiment 1

See Fig. 1; The device for fast detecting of optical elements of large caliber optical characteristics; Comprise pump light source 1, be arranged at the pump light beam shaping and the disposal system 2 of pump light source 1 rear end, pump energy reclaims catoptron 3; Pump beam absorption plant 4; Probe source 5 is arranged at detection light beam shaping and disposal system 6 behind probe source 5 output terminals in order, surveys optical diffraction light-dividing device 7 and polarization spectroscope 8, is arranged at the quarter-wave plate 9 behind the polarization spectroscope 8 outgoing output terminals; Be arranged at quarter-wave plate 9 and pump energy and reclaim first between the catoptron 3 and survey light and focus on adjustment lens 10, be arranged at second behind the polarization spectroscope 8 outgoing output terminals in order and survey light and focus on adjustment lens 11, spatial filter array 12, optical filter 13 and photodetector array 14.

See Fig. 1, the method for quick of optical elements of large caliber optical characteristics may further comprise the steps:

(1), the pump beam that is sent by pump light source 1 becomes light intensity pump beam modulated, light beam transversal size appropriateness after passing through pump beam shaping and disposal system 2 (including the pump beam amplitude modulaor); Light beam incides the surface of sample 15, and on first measurement point on sample 15 surfaces, produces photo-thermal effect, causes the surface local thermal deformation; The pump light that reflects through sample 15 first measurement points is reflexed on the sample 15 by pump energy recovery catoptron 3 again, also causes the surface local thermal deformation at sample 15 lip-deep second measurement point; So analogize, pump light behind the energy recovery catoptron repeatedly with the sample surface interaction, the measurement point 1 on sample surface has all caused the surface local thermal deformation to measurement point N.The optical power value that the pump light luminous power of each measurement point is all measured greater than minimum photo-thermal on the sample surface;

(2), the detecting light beam that is sent by probe source 5 is divided into the detecting light beam group of being made up of the N light beams by detection optical diffraction light-dividing devices 7 after surveying light beam shaping and disposal system 6; The detecting light beam group is through polarization spectroscope 8, and the state that polarization spectroscope 8 is provided with is that incident detecting light beam group is a transmissive state; After the detecting light beam group of process polarization spectroscope 8 sees through quarter-wave plate 9; Survey light by first and focus on 10 convergences of adjustment lens; Shine on the sample; And the 1st to N the measurement point that on sample 15, produces with pump beam overlaps, promptly in the detecting light beam group each the bundle detecting light beam all corresponding to pump beam at the lip-deep measurement point of sample;

The detecting light beam group of (3), being come out by sample 15 reflections is surveyed light through first successively again and is focused on adjustment lens 10 and quarter-wave plate 9; After the state that quarter-wave plate 9 is provided with made that the detecting light beam group is passed through quarter-wave plate 9 for the second time, its polarization state was compared for the first time and is turn 90 degrees through revolving before the quarter-wave plate 9; For the second time through the detecting light beam group of quarter-wave plate 9 by polarization spectroscope 8 reflections and survey light via second and focus on adjustment lens 11 and assemble, go in the photodetector array 14 through spatial filter array 12 and optical filter 13 are laggard.

Concrete testing process is: the surface that shines sample 15 through the pump beam of ovennodulation; And through pump energy reclaim catoptron repeatedly with the surface interaction of sample 15, the measurement point 1 on the surface of sample 15 has all caused the surface local thermal deformation to measurement point N.The surface local thermal deformation of this N measurement point will cause the variation through the detecting light beam propagation characteristic of this point accordingly, produce newly-increased convergence or effect weakening.Because this newly-increased convergence or effect weakening, corresponding change can take place in the detection luminous energy of process spatial filter array 12, is recorded by photodetector array 14.The output signal utilization lock phase detection technique of photodetector array 14 is measured.Again according to the numbering of detecting light beam with and corresponding measurement point, just can obtain the measuring-signal distribution of spatial discrimination.The measuring-signal of this space distribution is through just changing into the light absorption information of the space distribution of sample after suitably calibration is handled.

Embodiment 2

See Fig. 2; The device for fast detecting of optical elements of large caliber optical characteristics; Comprise pump light source 1, be arranged at the pump light beam shaping and the disposal system 2 of pump light source 1 rear end, pump energy reclaims catoptron 3; Pump beam absorption plant 4; Probe source 5 is arranged at detection light beam shaping and disposal system 6 behind probe source 5 output terminals in order, surveys light light spot shape converting means 7 and polarization spectroscope 8, is arranged at the quarter-wave plate 9 behind the polarization spectroscope 8 outgoing output terminals; The first detection light that is arranged between quarter-wave plate 9 and the pump energy recovery catoptron 3 focuses on adjustment lens 10, is arranged at the second detection light focusing adjustment lens 11, spatial filter array 12, optical filter 13 and photodetector array 14 after polarization spectroscope 8 reflects output terminals in order.

See Fig. 2, the method for quick of optical elements of large caliber optical characteristics may further comprise the steps:

(1), the pump beam that is sent by pump light source 1 becomes light intensity pump beam modulated, light beam transversal size appropriateness after passing through pump beam shaping and disposal system 2 (including the pump beam amplitude modulaor); Light beam incides the surface of sample 15, and on first measurement point on sample 15 surface photo-thermal effect, cause the surface local thermal deformation; The pump light that reflects through sample 15 first measurement points is reflexed on the sample 15 by pump energy recovery catoptron 3 again, also causes the surface local thermal deformation at sample 15 lip-deep second measurement point; So analogize, pump light behind the energy recovery catoptron repeatedly with the sample surface interaction, the measurement point 1 on sample surface has all caused the surface local thermal deformation to measurement point N.The optical power value that the pump light luminous power of each measurement point is all measured greater than minimum photo-thermal on the sample surface;

(2), the detecting light beam that sent by probe source 5 surveyed light light spot shape converting means 7 and is shaped to a branch of linear or oval detection hot spot through surveying light beam shaping and disposal system 6 backs, the long axis direction of surveying hot spot is consistent with the orientation of N measurement point; Survey hot spot through polarization spectroscope 8, the state that polarization spectroscope 8 is provided with is a transmissive state for surveying hot spot; After the detection hot spot of process polarization spectroscope 8 sees through quarter-wave plate 9, survey light by first and focus on 10 convergences of adjustment lens, shine on the sample 15, and all measurement point position and pump beam are overlapping on the sample surface;

(3), the detection hot spot that is come out by sample 15 reflections is surveyed light through first successively again and is focused on adjustment lens 10 and quarter-wave plate 9; After the state that quarter-wave plate 9 is provided with made that surveying hot spot passes through quarter-wave plate 9 for the second time, its polarization state was compared for the first time and is turn 90 degrees through revolving before the quarter-wave plate 9; For the second time through the detection hot spot of quarter-wave plate 9 by polarization spectroscope 8 reflections and survey light via second and focus on adjustment lens 11 and assemble, go in the photodetector array 14 through spatial filter array 12 and optical filter 13 are laggard.The testing process of photodetector array 14 is with embodiment 1.

It is not uniformly that linear or ellipse is surveyed the light hot spot, thus its when inciding each detector its direct current signal different, must proofread and correct in a suitable manner in actual use; The zones of different that line style or ellipse are surveyed the light hot spot covers measurement point 1 to N respectively; The signal of these points is interactional in theory; Therefore method only is applicable to that faint absorptiometry arrives under all very weak situation of every some signal of N at measurement point 1, and the interaction between them can be ignored as second-order effects.

Claims

1. the device for fast detecting of optical elements of large caliber optical characteristics; Comprise pump light source, probe source, photodetector, the optical filter that is arranged at the photodetector front end and spatial filter; It is characterized in that: the device for fast detecting of described optical elements of large caliber optical characteristics also includes pump energy and reclaims catoptron; The pump beam absorption plant; Be arranged at detecting light beam apparatus for shaping and polarization spectroscope behind the probe source output terminal in order, be arranged at quarter-wave plate behind the polarization spectroscope transmission output terminal; After described spatial filter array, optical filter and photodetector array all are arranged at polarization spectro mirror reflection output terminal.

2. the device for fast detecting of optical elements of large caliber optical characteristics according to claim 1 is characterized in that: described detecting light beam apparatus for shaping is selected for use and is surveyed the optical diffraction light-dividing device or survey light light spot shape converting means.

3. the device for fast detecting of optical elements of large caliber optical characteristics according to claim 1 is characterized in that: be provided with between described probe source and the detecting light beam apparatus for shaping and survey light beam shaping and disposal system; The rear end of described pump light source is provided with pump light beam shaping and disposal system.

4. the device for fast detecting of optical elements of large caliber optical characteristics according to claim 1 is characterized in that: be provided with detection light focusing adjustment lens behind the output terminal of described quarter-wave plate with behind the polarization spectro mirror reflection output terminal.