CN102095388A - System and method for automatically measuring best matching angle of crystals - Google Patents

Abstract

The invention discloses a system and method for automatically measuring best matching angle of crystals. The system comprises an optical path subsystem, a motion control subsystem and a data processing subsystem, wherein the optical path subsystem comprises a pulse laser, a spectroscope A, a spectroscope B, a reflecting mirror A, a periscope A, a periscope B, a reflecting mirror B and a spectroscope C; the motion control subsystem is simultaneously used for controlling the rotation of measured crystals as well as the micro-angle drive and the synchronous two-dimensional scanning motion of reflecting mirros in the periscopes A and B; and the data processing subsystem is mainly used for monitoring power readings of a dynamometer A and a dynamometer B, performing quality analysis on laser spot images acquired by a CCD (Charge-Coupled Device), and acquiring collimation data of a laser autocollimator A and a crystal autocollimator B.

Description

A kind of crystal optimum matching angle automatic measurement system and method

Technical field

The present invention relates to optical technology, computer technology, automatic control technology field, relate in particular to a kind of crystal optimum matching angle automatic measurement system and method.

Background technology

In the solid high power laser system, need the KDP crystal is carried out high-precision closely packed school.But before the dress school, need precision measurement by different spatial crystal optimum matching angle under the high power density, and the mensuration of diverse location frequency tripling efficient absolute value, so that reduce dress school difficulty and improve dress school speed.

This installs the automatic measurement of realizing at KDP crystal optimum matching angle, and its major function is to realize the collimation control of laser, the automatic collection of measurement data, storage and analysis, integrated debugging collimation, measuring system and high-precision test request.

Summary of the invention

Technical matters to be solved by this invention provides a kind of crystal optimum matching angle automatic measurement system and method.

The present invention is by the following technical solutions:

A kind of crystal optimum matching angle automatic measurement system comprises, the light path subsystem and, motion control subsystem and data process subsystem; The light path subsystem comprises, pulsed laser, spectroscope A, spectroscope B, catoptron A, periscope A, periscope B, catoptron B, spectroscope C, light path subsystem principle is: after pulsed laser sends laser, by spectroscope A incident beam is divided into two bundles: a branch of inciding on the power meter A; Incide periscope A behind another Shu Guang process spectroscope B and the catoptron A, light beam incides on the periscope B through behind the tested crystal, through inciding after the periscope B reflection on the power meter B that is placed on behind the tested crystal, periscope A and B drive to realize that by motion control subsystem synchronous two-dimensional scan campaign, motion control subsystem also are used for controlling little angle driving of catoptron of rotation, periscope A and the B of tested crystal simultaneously; Described data process subsystem be mainly used in monitoring power meter A and B the power measurement reading, the representation of laser facula of obtaining by CCD is carried out quality analysis, the collimation data of Laser Autocollimator A and crystal autocollimator B is gathered.

Described crystal optimum matching angle method for automatic measurement, may further comprise the steps: (1) is measured and is prepared: build light path, and whether the motion control, the operation of crystal adjustment rack, ccd image collection, autocollimator and the power meter that detect motion platform move normally, if unusual, need debugging or maintenance to reach normal level; And tested crystal put on the shelf, and adjust to test position; Parameter is set;

(2) beam path alignment: by gathering the data of crystal autocollimator B, drive tested crystal by motion control subsystem and adjust the position, consistent to guarantee tested crystal with the attitude of heavy caliber standard crystal; By gathering the data of Laser Autocollimator A, the catoptron among little driving periscope A and the B is to reach incident laser perpendicular to plane of crystal;

(3) the full-automatic multi-point scanning of crystal is measured: each measurement point is gathered 5 pairs of valid data, the optimum matching angle of calculating this point by the processing rule that pre-sets;

(4) assembly average at calculating tested crystal m * n dot matrix optimum matching angle

The present invention mainly solves 2 problems:

(1) crystal optimum matching angle is determined: according to the test result that m * the n dot matrix is arranged at diverse location crystal optimum matching angle, calculate the unified assembly average at crystal optimum matching angle under the high power density;

(2) classification of crystal double frequency efficient is judged: based on the unified assembly average at crystal optimum matching angle, calculate the difference of diverse location crystal optimum matching angle and mean value, and the space lattice of diverse location shg efficiency absolute value is arranged, with the pairing beam quality in diverse location optimum matching angle, adopt the BP neural network algorithm to provide the shg efficiency rank of crystal, judge that according to the shg efficiency rank can crystal use at last.

Description of drawings

The light path of Fig. 1 crystal optimum matching of the present invention angle measuring device and control, data acquisition synoptic diagram;

The unified scan mode explanation of Fig. 2 the present invention: dotted line is a return route, and solid line is for detecting route.

Embodiment

Below in conjunction with specific embodiment, the present invention is described in detail.

As shown in Figure 1, system comprises, the light path subsystem and, motion control subsystem and data process subsystem; The light path subsystem comprises, pulsed laser, spectroscope A, spectroscope B, catoptron A, periscope A, periscope B, catoptron B, spectroscope C, light path subsystem principle is: after pulsed laser sends laser, by spectroscope A incident beam is divided into two bundles: a branch of inciding on the power meter A; Incide periscope A behind another Shu Guang process spectroscope B and the catoptron A, light beam incides on the periscope B through behind the tested crystal, through inciding after the periscope B reflection on the power meter B that is placed on behind the tested crystal, periscope A and B are driven by motion control subsystem and realize that synchronous two-dimensional scan campaign, motion control subsystem also are used for controlling little angle driving of the catoptron of the rotation of tested crystal, periscope group simultaneously; Described data process subsystem be mainly used in monitoring power meter A and B the power measurement reading, the representation of laser facula of obtaining by CCD is carried out quality analysis, the collimation data of Laser Autocollimator A and the sub-collimator B of crystal is gathered, finish the measurement of the energy change value when different matching angle state of each measurement point on the tested crystal, the data acquisition of crystal autocollimator and processing capacity be exactly when guaranteeing each measurement point tested crystal place attitude be consistent (by the heavy caliber standard crystal for reference to realizing).

The two-dimensional scan motion control of periscope A and B mainly finish tested crystal from left to right, the unified measurement function that distributes of the m of measuring sequence * n dot matrix from top to bottom, little angle drive controlling function of the catoptron in the periscope group guarantees that mainly incident laser is perpendicular to tested plane of crystal.

The data processing rule of data process subsystem:

(1) to the data processing rule of power meter A and power meter B

The reception data validity is judged: the corresponding output of power meter A and power meter B energy datum, singular point is rejected, if power meter A is output as singular point, then corresponding power meter B should put invalid, otherwise if power meter B is output as singular point, then corresponding power meter A should put invalidly, i.e. the output of A and B all effectively the time, thinks that just valid data are right.When the valid data of measured angular command control system when surpassing 5 rotates to next measured angular with tested crystal.

For each measurement point x, the ENERGY E 1 of correspondence (being measured by power meter A) and E2 (being measured by power meter B) are distinguished averaged (i.e. 5 pairs of Validity Test data) obtain e1 and e2, further calculate e2 and obtain y divided by the value of e1.Adopt the normalized curve of the matching angle that cubic spline algorithm match y orders about x, the x value of correspondence is as the optimum matching angle when finding out peak according to matched curve.For this measurement point x, crystal will rotate, and measure a lot of angles, and its y value of different angles is different.The corresponding angle of the highest y value is the optimum matching angle of this measurement point;

The number of times of the energy ratio that calculates the duplicate measurements matching angle also can be set, not necessarily 5 times.Can in 3～50, be provided with arbitrarily.5 times is a balance result who draws in the experiment between test duration and measuring accuracy.

Unified assembly average based on the crystal optimum matching angle of each measurement point, calculate the difference of diverse location crystal optimum matching angle and mean value, and the m of diverse location shg efficiency absolute value * n dot matrix arranges, and calculate unified in this crystal frequency tripling efficient that can realize.

(2) laser beam quality analysis

To being incident in the light spot image of CCD, extract the parameters such as barycenter, energy distribution of this laser facula, analyze beam quality.By distribution curve (each measurement point, all corresponding one group beam quality parameter of these parameters with each point.So just constituted a series of distribution curves) analyze the beam quality of each measurement point, with these data as one of input data of the good and bad classification of crystal double frequency efficient.

(3) the good and bad classification rule of crystal double frequency efficient

Unified assembly average based on crystal optimum matching angle, calculate the difference of diverse location crystal optimum matching angle and mean value, and the space lattice of diverse location shg efficiency absolute value is arranged, with the pairing beam quality parameter in diverse location optimum matching angle (barycenter of hot spot, energy distribution), adopt the BP neural network algorithm to provide the shg efficiency rank of crystal.

The classification of crystal double frequency efficient is judged: based on the unified assembly average at crystal optimum matching angle, calculate the difference of diverse location crystal optimum matching angle and mean value, and the space lattice of diverse location shg efficiency absolute value is arranged, and derive the frequency tripling efficient that unified interior this crystal can be realized, judge that according to the shg efficiency rank can crystal use.

Measure flow process:

(1) measure to prepare by the light path of building shown in Figure 1, and whether the equipment such as motion control, the operation of crystal adjustment rack, ccd image collection, autocollimator and power meter that detect motion platform moves normally,, need debug or keep in repair to reach normal level if unusual; And tested crystal put on the shelf, and adjust to test position.In software systems the value of m, n among test dot matrix m * n and the size of crystal are set, system will be provided with the step pitch of two-dimensional scan automatically according to the parameter of input.

(2) beam path alignment is by gathering Laser Autocollimator A data, and the catoptron in little driving periscope group is to reach incident laser perpendicular to plane of crystal.By gathering crystal autocollimator B data, drive tested crystal adjustment rack, consistent to guarantee tested crystal with the attitude of heavy caliber standard crystal.

(3) the full-automatic multi-point scanning of crystal is measured, and adopts scanning sequency as shown in Figure 2, need carry out the beam path alignment of step 2 before to every some test.Each matching angle of measurement point need have 5 pairs of valid data, calculates the optimum matching angle of this point by aforesaid data processing rule.The incremental amplitude of matching angle can be provided with arbitrarily by system.Finish multi-point scanning by two-dimensional scan control system driving periscope A and periscope B.

(4) assembly average at the m * tested crystal optimum matching of n dot matrix angle

Adopt aforesaid data processing rule to calculate, and provide test report.

Among the present invention, realization be the measurement of m * n dot matrix, the system that has may not need so many measurement points, but adopts 9 methods of testing (promptly 3 * 3, just can not need the two dimensional motion control system).The precision of motion control subsystem and the precision of collimator are influential to the measuring accuracy of system, so the hardware combinations of different accuracy, can develop the equipment of measurement series precision.

Should be understood that, for those of ordinary skills, can be improved according to the above description or conversion, and all these improvement and conversion all should belong to the protection domain of claims of the present invention.

Claims (2)

1. a crystal optimum matching angle automatic measurement system is characterized in that, comprises light path subsystem, motion control subsystem and data process subsystem; The light path subsystem comprises, pulsed laser, spectroscope A, spectroscope B, catoptron A, periscope A, periscope B, catoptron B, spectroscope C, light path subsystem principle is: after pulsed laser sends laser, by spectroscope A incident beam is divided into two bundles: a branch of inciding on the power meter A; Incide periscope A behind another Shu Guang process spectroscope B and the catoptron A, light beam incides on the periscope B through behind the tested crystal, through inciding after the periscope B reflection on the power meter B that is placed on behind the tested crystal, periscope A and B drive to realize that by motion control subsystem synchronous two-dimensional scan campaign, motion control subsystem also are used for controlling little angle driving of catoptron of rotation, periscope A and the B of tested crystal simultaneously; Described data process subsystem be mainly used in monitoring power meter A and B the power measurement reading, the representation of laser facula of obtaining by CCD is carried out quality analysis, the collimation data of Laser Autocollimator A and crystal autocollimator B is gathered.

2. crystal optimum matching according to claim 1 angle method for automatic measurement, it is characterized in that, may further comprise the steps: (1) is measured and is prepared: build light path, and whether the motion control, the operation of crystal adjustment rack, ccd image collection, autocollimator and the power meter that detect motion platform move normally, if unusual, need debugging or maintenance to reach normal level; And tested crystal put on the shelf, and adjust to test position; Parameter is set;

(2) beam path alignment: by gathering the data of crystal autocollimator B, drive tested crystal by motion control subsystem and adjust the position, consistent to guarantee tested crystal with the attitude of heavy caliber standard crystal; By gathering the data of Laser Autocollimator A, the catoptron among little driving periscope A and the B is to reach incident laser perpendicular to plane of crystal;

(3) the full-automatic multi-point scanning of crystal is measured: each measurement point is gathered 5 pairs of valid data, the optimum matching angle of calculating this point by the processing rule that pre-sets;

(4) assembly average at calculating tested crystal m * n dot matrix optimum matching angle

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