CN103499286B - Reset compensation type two-optical-axis linear displacement laser interferometer calibration method and device - Google Patents

Abstract

The invention provides a reset compensation type two-optical-axis linear displacement laser interferometer calibration method and a reset compensation type two-optical-axis linear displacement laser interferometer calibration device, and belongs to the technical field of laser measurement. A measuring light beam of a laser interferometer to be calibrated passes through a middle through hole of a two-axis hollow laser interference mirror group, and is parallelly arranged in the center position of two parallel standard measuring light beams, the vertical distance from the standard measuring light beams to the measuring light beam of the laser interferometer to be calibrated is very small, the air refractive index average value of the two standard measuring light beams is approximate to the air refractive index value of the measuring light beam of the laser interferometer to be calibrated, two light beam position detectors respectively measure the derivative displacement of the two standard measuring light beams relative to a target reflecting mirror in a plane vertical to the standard measuring light beams in any two-dimensional directions, a micro inching device measures the derivative displacement average value according to the two light beam position detectors, the real-time reset compensation is carried out on the derivative displacement of the target reflecting mirror, and the incidence position of the measuring light beams on the reflecting surface of the target reflecting mirror is enabled not to be changed.

Description

Return compensation pair of optical axis displacement laser interferometer calibration method and device

Technical field

The invention belongs to laser measuring technique field, relate generally to a kind of laser interferometer calibration method and device.

Background technology

Laser interferometry displacement of the lines technology is the standard assay techniques that precision is very high, be widely used in the fields such as accurate and ultraprecise machining, microelectronics equipment, nanometer technology industrial equipment and defence equipment, in order to ensure the accuracy of laser interferometer measurement displacement of the lines, need scientific and effective linear displacement laser interferometer calibration method and device.The general thinking of lubber-line displacement laser interferometer adopts the higher linear displacement laser interferometer of accuracy class to calibrate, and when both precision are close, is namely called comparison.In actual alignment work, linear displacement laser interferometer has suitable precision mostly, is thus realized by comparison the calibration of linear displacement laser interferometer.At present, the general calibration steps of linear displacement laser interferometer has parallel type, face-to-face formula and common light path type (Liao Chengqing, Zhu little Ping, Wang Weichen, Du Hua. the research of laser interferometer length measurement precision calibration steps. modern surveying and laboratory room managing, 2005,1:6-7).

Fig. 1 is parallel type laser interferometer calibrating installation structural representation, canonical measure mirror and be calibrated and measure mirror and be arranged on same movable platform, and when sports platform moves, the light paths of two cover laser interferometer measurement light beams increase and reduction simultaneously.Place because two cover laser interferometer are parallel, two-way light is affected by environment similar, and air refraction is less to two-way influence of light, but due to the vertical range between two-way light comparatively large, therefore during two cover laser interferometer calibrations, Abbe error is larger.

Fig. 2 is face-to-face formula laser interferometer calibrating installation structural representation, canonical measure mirror and being calibrated measures that mirror is aspectant is arranged on sports platform, its advantage is that two cover laser interferometer measurement beam axis can tune to almost on same measurement axis, both Abbe errors are very little, shortcoming is because the near-end of an interferometer is another far-end, not etc., the interference by environment is not different, and the light path impact of air refraction on two cover laser interferometer is inconsistent for both light paths.

2011, China National Measuring Science Research Inst. sets up domestic first 80 meters of large length laser interfering meter measuring device (Leng Yu states, Tao Lei, Xu Jian. based on two-frequency laser interferometer system accuracy and the analysis of Influential Factors of 80m measurement mechanism. metering and measuring technology, 2011, 38 (9): 47-49), accepted standard device puts parallel for the long distance two-frequency laser interferometer of three Agilent5530 types, become three path laser interferometers, the laser interferometer be calibrated is placed in the middle of them, thus carry out calibration calibration, this scheme belongs to the derivative schemes of parallel type calibration steps, and measure owing to adopting three road light simultaneously, therefore can compensating measure time Abbe error, but put owing to being that three laser instruments are parallel, therefore three road sign locating tab assembly light locus are far away, the measurement electrical distance every road sign locating tab assembly electrical distance being calibrated laser interferometer is also far away, all optical paths are different by the impact of environment, air refraction is inconsistent on all optical path impacts, cause calibration measurement result inaccurate.

Fig. 3 is common light path type laser interferometer calibrating installation structural representation, and light path type becomes 90 degree turn back modes unlike two laser instruments with receiver with parallel type laser interferometer calibrating installation altogether, and two cover laser interferometer share interference mirror group and measure mirror.Because two cover laser interferometer share an interference mirror group and measure mirror, cannot determine that the interference mirror group shared belongs to standard laser interferometer component with measurement mirror or belongs to and be calibrated standard laser interferometer component, therefore, not that on denotation, two calibrations of overlapping laser interferometer are calibrated.

1985, Dr-Ing H.-H.Schussler makes full use of space distribution (Dr-Ing H.-H.Schussler.Comparison andcalibration of laser interferometer systems.Measurement, 1985,3 (4): 175-184), multipair linear displacement laser interferometer is carried out common light path calibration.Owing to just increasing the quantity of light path laser interferometer altogether, institute also has the shortcoming of common light path type laser interferometer calibrating installation above-mentioned in this approach.

Summary of the invention

For Abbe error larger in above-mentioned existing linear displacement laser interferometer calibrating installation, serious air refraction inconsistency be not that on denotation, two cover laser interferometer carry out the problem of calibrating, the present invention proposes and have developed return compensation pair of optical axis displacement laser interferometer calibration method and device, this invention makes canonical measure light beam and is calibrated laser interferometer measurement beam orthogonal apart from very little, thus the impact of Abbe error, reduction air refraction inconsistency can be reduced, and be that on denotation, two cover laser interferometer are calibrated.

Object of the present invention is achieved through the following technical solutions:

A kind of return compensation pair of optical axis displacement laser interferometer calibration method, the method step is as follows:

(1) the output light of standard laser interferometer laser instrument forms two the canonical measure light beams be parallel to each other through twin shaft hollow laser interference mirror group, article two, canonical measure light beam incides on the level crossing of interstitial hole, after being reflected back toward twin shaft hollow laser interference mirror group with the part light of level crossing displacement information in every bar canonical measure light beam, according to two interference signals corresponding respectively with two canonical measure light beams obtained from twin shaft hollow laser interference mirror group, two shift values that the level crossing that can obtain interstitial hole moves along canonical measure beam direction, the remainder light of every bar canonical measure light beam is transmitted on two light-beam position detectors through there being the level crossing of interstitial hole,

(2) the output light being calibrated laser interferometer laser instrument is calibrated laser interferometer measurement light beam through being calibrated the formation of laser interferometer interference mirror group, be calibrated the intermediate throughholes of laser interferometer measurement light beam through twin shaft hollow laser interference mirror group, parallel and coplanar with two canonical measure light beams, be calibrated laser interferometer measurement light beam to incide and be calibrated on laser interferometer catoptron, after being reflected back toward and being calibrated laser interferometer interference mirror group, according to from being calibrated the interference signal obtained in laser interferometer interference mirror group, can obtain being calibrated the shift value that laser interferometer catoptron moves along canonical measure beam direction,

(3) sports platform along in the reciprocating process of canonical measure beam direction with in the derivative displacement perpendicular to random two-dimensional direction in canonical measure beam plane, be fitted in target mirror on sports platform at the free displacement having relative telemechanical platform perpendicular to random two-dimensional direction in canonical measure beam plane, two light-beam position detectors measure canonical measure light beam relative target catoptron respectively deriving displacement perpendicular to random two-dimensional direction in canonical measure beam plane, inching gear goes out the mean value of derivative displacement according to two light-beam position detector measurements, displacement is derived to target mirror and carries out real-time return compensation, ensure that the incoming position of measuring beam on target mirror reflecting surface does not change,

(4) at sports platform along in canonical measure beam direction reciprocatory movement, with at the uniform velocity or non-at the uniform velocity sampling rate, synchronized sampling standard laser interferometer two is measured shift value and is calibrated laser interferometer measurement shift value, the standard laser interferometer two obtained sampling at every turn measure displacement average after with sample simultaneously obtain to be calibrated laser interferometer measurement shift value poor, obtain some sampled measurements error amounts.

A kind of return compensation pair of optical axis displacement laser interferometer calibrating installation, comprise standard laser interferometer laser instrument and two be configured in the receiver that can receive on standard laser interferometer interference signal position, two receivers are connected with standard laser interferometer signal disposal system by wire respectively; Standard laser interferometer laser instrument output light path is configured with can allowing of intermediate throughholes and is calibrated the twin shaft hollow standard laser interference mirror group that laser interferometer measurement light beam passes; Twin shaft hollow standard laser interference mirror group side arrangement guide rail, sports platform is fitted on guide rail, sports platform is provided with by inching gear the level crossing of interstitial hole, install in level crossing interstitial hole and be calibrated laser interferometer catoptron, be calibrated laser interferometer catoptron and form by the level crossing of interstitial hole the target mirror that the coplanar and relative position of the plane of incidence fixes; Two light-beam position detector configuration are having after the level crossing regional transmission of interstitial hole, and lay respectively on two parallel standards measuring beam transmitted light paths; Be calibrated laser interferometer interference mirror group and be calibrated laser interferometer laser instrument in the configuration of twin shaft hollow standard laser interference mirror group opposite side, described in be calibrated laser interferometer interference mirror group and be positioned at and be calibrated on laser interferometer laser instrument output light path; Being calibrated laser interferometer receiver is configured on the position that can receive and be calibrated laser interferometer interference signal, and wire will be calibrated laser interferometer receiver and be calibrated laser interferometer signal disposal system and be connected.

The present invention has following characteristics and good result:

(1) compared with parallel type laser interferometer calibrating installation, owing to being calibrated the intermediate throughholes of laser interferometer measurement light beam by twin shaft hollow laser interference mirror group, the vertical range be calibrated between laser interferometer measurement optical axis and parallel standards optical axis is shorter, both light paths are more close, and therefore during two cover laser interferometer calibrations, Abbe error is very little.

(2) compared with face-to-face formula laser interferometer calibrating installation, in the plane perpendicular to two canonical measure light beams, by two canonical measure light beams in the line segment region that this plane projection point is formed, article two, canonical measure light beam and to be calibrated laser interferometer measurement light beam very little by the degree difference of environmental interference, the air refraction mean value of two canonical measure light beams is close to the air refraction value being calibrated laser interferometer measurement light beam.

(3) light path type laser interferometer calibrating installation is compared together, shares interference mirror group and measures mirror, standard laser interferometer component and to be calibrated standard laser interferometer component ownership clear and definite, is that on denotation, two cover laser interferometer are calibrated.

(4) two light-beam position detectors can measure two canonical measure light beam relative target catoptrons respectively deriving displacement perpendicular to random two-dimensional direction in canonical measure beam plane, inching gear goes out the mean value of derivative displacement according to two light-beam position detector measurements, displacement is derived to target mirror and carries out real-time return compensation, the incoming position of measuring beam on target mirror reflecting surface is not changed, the measuring error that on the target mirror reflecting surface that can not induce one when ensureing calibration, different-shape eigenwert causes.

Accompanying drawing explanation

Fig. 1 is parallel type laser interferometer calibrating installation structural representation

Fig. 2 is face-to-face formula laser interferometer calibrating installation structural representation

Fig. 3 is for being total to light path type laser interferometer calibrating installation structural representation

Fig. 4 is return compensation pair of optical axis displacement laser interferometer calibrating installation structural representation

Fig. 5 is by the level crossing of interstitial hole and hot spot position distribution schematic diagram on the plane of incidence being calibrated the target mirror that laser interferometer catoptron forms

In figure: 1 standard laser interferometer laser instrument, 2 twin shaft hollow standard laser interference mirror groups, 3, article 4 two, parallel standards measuring beam, 5 level crossings having an interstitial hole, 6, 7 standard laser interferometer receivers, 8 standard signal disposal systems, 9 are calibrated laser interferometer laser instrument, 10 are calibrated laser interferometer interference mirror group, 11 are calibrated laser interferometer measurement light beam, 12 intermediate throughholes, 13 are calibrated laser interferometer catoptron, 14 are calibrated laser interferometer receiver, 15 are calibrated laser interferometer signal disposal system, 16 inching gears, 17 sports platforms, 18 guide rails, 19, 20 two light-beam position detectors, 21, article 22 two, parallel standards measuring beam facula position, 23 are calibrated laser interferometer beam and focus position.

Embodiment

Below in conjunction with accompanying drawing, the specific embodiment of the invention is described in further detail.

A kind of return compensation pair of optical axis displacement laser interferometer calibrating installation, comprise standard laser interferometer laser instrument 1 and two be configured in the receiver 6,7 that can receive on standard laser interferometer interference signal position, two receivers 6,7 are connected with standard laser interferometer signal disposal system 8 by wire respectively; Standard laser interferometer laser instrument 1 output light path is configured with can allowing of intermediate throughholes 12 and is calibrated the twin shaft hollow standard laser interference mirror group 2 that laser interferometer measurement light beam 11 passes; Twin shaft hollow standard laser interference mirror group 2 side arrangement guide rail 18, sports platform 17 is equipped on the track 18, sports platform 17 is provided with by inching gear 16 level crossing 5 of interstitial hole, install in level crossing 5 interstitial hole and be calibrated laser interferometer catoptron 13, be calibrated laser interferometer catoptron 13 and form the fixing target mirror of the coplanar and relative position of the plane of incidence by the level crossing 5 of interstitial hole; Two light-beam position detectors 19,20 are configured in after level crossing 5 regional transmission of interstitial hole, and lay respectively on two parallel standards measuring beams 3,4 transmitted light path; Be calibrated laser interferometer interference mirror group 10 in the configuration of twin shaft hollow standard laser interference mirror group 2 opposite side and be calibrated laser interferometer laser instrument 9, described in be calibrated laser interferometer interference mirror group 10 and be positioned at and be calibrated on laser interferometer laser instrument 9 output light path; Being calibrated laser interferometer receiver 14 is configured on the position that can receive and be calibrated laser interferometer interference signal, and wire will be calibrated laser interferometer receiver 14 and be calibrated laser interferometer signal disposal system 15 and be connected.

Described two parallel standards measuring beams 3,4 are with to be calibrated laser interferometer measurement light beam 11 all vertical with the target mirror plane of incidence.

The intermediate throughholes 12 of described twin shaft hollow standard laser interference mirror group 2 comprises arbitrary shape, and number is one or more.

Described every bar parallel standards measuring beam 3,4 and be calibrated laser interferometer measurement light beam 11 had the level crossing 5 of interstitial hole respectively and be calibrated laser interferometer catoptron 13 reflect once or once more than.

The described laser interferometer catoptron 13 that is calibrated comprises level crossing, prism of corner cube, right-angle prism.

A kind of return compensation pair of optical axis displacement laser interferometer calibration method, the method step is as follows:

(1) the output light of standard laser interferometer laser instrument 1 forms two the canonical measure light beams 3 be parallel to each other through twin shaft hollow laser interference mirror group 2, 4, article two, canonical measure light beam 3, 4 incide on the level crossing 5 of interstitial hole, after being reflected back toward twin shaft hollow laser interference mirror group 2 with the part light of level crossing 5 displacement information in every bar canonical measure light beam, according to obtain from twin shaft hollow laser interference mirror group 2 with two canonical measure light beams 3, 4 two corresponding respectively interference signals, the level crossing 5 of interstitial hole can be obtained along canonical measure light beam 3, two shift values of 4 direction motions, the remainder light of every bar canonical measure light beam is transmitted to two light-beam position detectors 19 through there being the level crossing 5 of interstitial hole, on 20,

(2) the output light being calibrated laser interferometer laser instrument 9 is calibrated laser interferometer measurement light beam 11 through being calibrated the formation of laser interferometer interference mirror group 10, be calibrated the intermediate throughholes 12 of laser interferometer measurement light beam 11 through twin shaft hollow laser interference mirror group 10, with two canonical measure light beams 3, 4 is parallel and coplanar, be calibrated laser interferometer measurement light beam 11 to incide and be calibrated on laser interferometer catoptron 13, after being reflected back toward and being calibrated laser interferometer interference mirror group 10, according to from being calibrated the interference signal obtained in laser interferometer interference mirror group 10, can obtain being calibrated laser interferometer catoptron 13 along canonical measure light beam 3, the shift value of 4 direction motions,

(3) sports platform 17 is along canonical measure light beam 3, with perpendicular to canonical measure light beam 3 in the 4 reciprocating processes in direction, the derivative displacement in random two-dimensional direction in 4 planes, be fitted in target mirror on sports platform 17 perpendicular to canonical measure light beam 3, in 4 planes, there is the free displacement of relative telemechanical platform 17 in random two-dimensional direction, two light-beam position detectors 19, 20 measure canonical measure light beam 3 respectively, 4 relative target catoptrons are perpendicular to canonical measure light beam 3, in 4 planes, random two-dimensional direction derives displacement, inching gear 16 is according to two light-beam position detectors 19, 20 mean values measuring derivative displacement, displacement is derived to target mirror and carries out real-time return compensation, ensure that the incoming position of measuring beam on target mirror reflecting surface does not change,

(4) at sports platform 17 along in canonical measure light beam 3,4 direction reciprocatory movement, with at the uniform velocity or non-at the uniform velocity sampling rate, synchronized sampling standard laser interferometer two is measured shift value and is calibrated laser interferometer measurement shift value, the standard laser interferometer two obtained sampling at every turn measure displacement average after with sample simultaneously obtain to be calibrated laser interferometer measurement shift value poor, obtain some sampled measurements error amounts.

Canonical measure beam and focus position 21,22 is the position that two parallel standards measuring beams 3,4 incide the level crossing 5 of interstitial hole successively respectively, being calibrated laser interferometer beam and focus position 23 is be calibrated the position that laser interferometer measurement light beam 11 incidence is calibrated laser interferometer catoptron 13, can find out from position distribution and be calibrated the middle position that laser interferometer beam and focus position 23 is in canonical measure beam and focus position 21,22, namely two parallel standards measuring beams 3,4 will be calibrated laser interferometer measurement light beam 11 and will be clamped in centre position.

Claims (6)

1. return compensation pair of optical axis displacement laser interferometer calibration method, is characterized in that the method step is as follows:

(1) the output light of standard laser interferometer laser instrument forms two the canonical measure light beams be parallel to each other through twin shaft hollow laser interference mirror group, article two, canonical measure light beam incides on the level crossing of interstitial hole, after being reflected back toward twin shaft hollow laser interference mirror group with the part light of level crossing displacement information in every bar canonical measure light beam, according to two interference signals corresponding respectively with two canonical measure light beams obtained from twin shaft hollow laser interference mirror group, two shift values that the level crossing that can obtain interstitial hole moves along canonical measure beam direction, the remainder light of every bar canonical measure light beam is transmitted on two light-beam position detectors through there being the level crossing of interstitial hole,

(2) the output light being calibrated laser interferometer laser instrument is calibrated laser interferometer measurement light beam through being calibrated the formation of laser interferometer interference mirror group, be calibrated the intermediate throughholes of laser interferometer measurement light beam through twin shaft hollow laser interference mirror group, parallel and coplanar with two canonical measure light beams, be calibrated laser interferometer measurement light beam to incide and be calibrated on laser interferometer catoptron, after being reflected back toward and being calibrated laser interferometer interference mirror group, according to from being calibrated the interference signal obtained in laser interferometer interference mirror group, can obtain being calibrated the shift value that laser interferometer catoptron moves along canonical measure beam direction,

(3) sports platform along in the reciprocating process of canonical measure beam direction with in the derivative displacement perpendicular to random two-dimensional direction in canonical measure beam plane, be fitted in target mirror on sports platform at the free displacement having relative telemechanical platform perpendicular to random two-dimensional direction in canonical measure beam plane, two light-beam position detectors measure canonical measure light beam relative target catoptron respectively deriving displacement perpendicular to random two-dimensional direction in canonical measure beam plane, inching gear goes out the mean value of derivative displacement according to two light-beam position detector measurements, displacement is derived to target mirror and carries out real-time return compensation, ensure that the incoming position of measuring beam on target mirror reflecting surface does not change,

(4) at sports platform along in canonical measure beam direction reciprocatory movement, with at the uniform velocity or non-at the uniform velocity sampling rate, synchronized sampling standard laser interferometer two is measured shift value and is calibrated laser interferometer measurement shift value, the standard laser interferometer two obtained sampling at every turn measure displacement average after with sample simultaneously obtain to be calibrated laser interferometer measurement shift value poor, obtain some sampled measurements error amounts.

2. a return compensation pair of optical axis displacement laser interferometer calibrating installation, comprise standard laser interferometer laser instrument (1) and two be configured in the receiver (6,7) that can receive on standard laser interferometer interference signal position, two receivers (6,7) are connected with standard laser interferometer signal disposal system (8) by wire respectively; It is characterized in that being configured with can allowing of intermediate throughholes (12) on standard laser interferometer laser instrument (1) output light path and be calibrated twin shaft hollow standard laser interference mirror group (2) that laser interferometer measurement light beam (11) passes; Twin shaft hollow standard laser interference mirror group (2) side arrangement guide rail (18), sports platform (17) is fitted on guide rail (18), sports platform (17) is provided with by inching gear (16) level crossing (5) of interstitial hole, install in level crossing (5) interstitial hole and be calibrated laser interferometer catoptron (13), be calibrated laser interferometer catoptron (13) and have the level crossing of interstitial hole (5) the composition plane of incidence coplanar and the target mirror that relative position is fixing; Two light-beam position detectors (19,20) are configured in after level crossing (5) regional transmission of interstitial hole, and lay respectively on two parallel standards measuring beams (3,4) transmitted light path; Be calibrated laser interferometer interference mirror group (10) in the configuration of twin shaft hollow standard laser interference mirror group (2) opposite side and be calibrated laser interferometer laser instrument (9), described in be calibrated laser interferometer interference mirror group (10) and be positioned at and be calibrated on laser interferometer laser instrument (9) output light path; Being calibrated laser interferometer receiver (14) is configured on the position that can receive and be calibrated laser interferometer interference signal, and wire will be calibrated laser interferometer receiver (14) and be calibrated laser interferometer signal disposal system (15) and be connected.

3. return according to claim 2 compensation pair of optical axis displacement laser interferometer calibrating installation, is characterized in that described two parallel standards measuring beams (3,4) and to be calibrated laser interferometer measurement light beam (11) all vertical with the target mirror plane of incidence.

4. return according to claim 2 compensation pair of optical axis displacement laser interferometer calibrating installation, it is characterized in that the intermediate throughholes (12) of described twin shaft hollow standard laser interference mirror group (2) comprises arbitrary shape, number is one or more.

5. return according to claim 2 compensation pair of optical axis displacement laser interferometer calibrating installation, is characterized in that described every bar parallel standards measuring beam (3,4) and is calibrated laser interferometer measurement light beam (11) had the level crossing of interstitial hole (5) respectively and be calibrated more than laser interferometer catoptron (13) reflection once or once.

6. return according to claim 2 compensation pair of optical axis displacement laser interferometer calibrating installation, is characterized in that the described laser interferometer catoptron (13) that is calibrated comprises level crossing, prism of corner cube, right-angle prism.