CN205159787U - Pulsed laser beam combining device based on four -electrode - Google Patents

Abstract

The utility model discloses a pulsed laser beam combining device based on four -electrode, including electro -optical crystal, 2 drive circuit, 2 at least laser instruments, synchrodyne, laser collimating element, wherein 2 plate electrodes of 1 drive circuit cooperate with 2 adjacent sides of electro -optical crystal respectively, and 2 plate electrodes of 1 drive circuit cooperate with 2 other sides of electro -optical crystal respectively in addition, all the incident surface with electro -optical crystal is relative for the delivery outlet of laser instrument, and 2 drive circuit and overall laser instrument all are connected with the synchrodyne, the utility model discloses an it makes incident laser have the light deflection of different deflection routes, production under different voltages to install the electro -optical crystal that reverse utilization has the four -electrode to combine together its and characteristic and synchrodyne of pulsed laser, can realize through one -level beam combining device that multichannel pulsed laser closes and restraint.

Description

A kind of pulse laser beam merging apparatus based on four electrodes

Technical field

The utility model relates to superpower laser field, is specifically related to a kind of pulse laser beam merging apparatus based on four electrodes.

Background technology

Along with development and the maturation of laser technology, high power laser light has to be applied more and more widely, has had a deep effect on the development of multiple industry.Divide high power laser light by working method and be mainly divided into high-peak power laser (i.e. high energy pulse laser) and high-average power laser.

For high energy pulse laser, require that laser has certain repetition rate in multiple application.But directly improve the repetition rate of high energy pulse laser operation, serious thermal effect will be produced, thus affect the performance of laser, even cause laser to export pulse energy and decline or can not work.For high-average power laser, application demand constantly proposes requirements at the higher level to laser output power, and single laser power ascension is limited, is difficult to realize higher average output power.

Therefore, no matter be for high energy pulse laser or for high-average power laser, the repetition rate improving pulse laser is all need the problem of solution badly.

Utility model content

For above-mentioned problems of the prior art, the utility model people thinks that close bundle by pulse laser solves this problem, for high energy pulse laser, sequential closes the repetition rate that bundle can improve laser pulse output, for high-average power laser, sequential closes the average power that bundle can improve Output of laser.The utility model provides a kind of pulse laser beam merging apparatus based on four electrodes, the light deflection that the electrooptic crystal that the reverse utilization of device of the present utility model has four electrodes produces, and its characteristic with pulse laser and synchronous motor are combined, multipath pulse laser can be realized by one-level beam merging apparatus and close bundle.

For achieving the above object, the utility model provides following technical scheme:

Based on a pulse laser beam merging apparatus for four electrodes, comprise

Electrooptic crystal, described electrooptic crystal is quadrangular, has 4 sides and 2 bottom surfaces;

2 drive circuits, match in the side that wherein 2 battery lead plates of 1 drive circuit are adjacent with 2 of electrooptic crystal respectively, 2 battery lead plates of another 1 drive circuit match with other 2 sides of electrooptic crystal respectively;

At least 2 lasers, the delivery outlet of laser is all relative with the plane of incidence of electrooptic crystal, the pulse laser that laser exports is arranged as straight line at the incoming position of the plane of incidence, in the same position outgoing of exit facet, the direction of propagation of outgoing afterpulse laser is identical, and the plane of incidence and exit facet are respectively 2 bottom surfaces of electrooptic crystal;

Synchronous motor, 2 drive circuits are connected with synchronous motor respectively with whole lasers.

Further, match with positive plate and negative plate respectively in the side that described electrooptic crystal is adjacent.

Further, described laser is that front and back are staggered.

The beneficial effects of the utility model are as follows:

1, electrooptic crystal, drive circuit are combined with synchronous motor, 2 drive circuits apply different voltage to electrooptic crystal, synchronous motor controls to execute alive size, direction and moment, what ingenious reverse utilization had an electrooptic crystal of four electrodes has different deflection paths and the feature of pulse laser at different voltage effect following formula laser, multipath pulse laser is closed Shu Chengyi road laser, under the prerequisite not reducing pulse energy, improve repetition rate and the average power of pulse laser output;

2, by synchronous motor to the control in multipath pulse laser sequential, identical or different conjunction bundle of pulsed laser interpulse period can be obtained;

3, can be realized the conjunction bundle of multipath pulse laser by beam merging apparatus of the present utility model, as needed the pulse laser of more high repetition frequency, beam merging apparatus of the present utility model is carried out plural serial stage can be realized;

4, the pulse laser that laser exports for the pulse of reruning, also can be able to be single pulse, can have the characteristics such as different pulse shape, pulse duration, wavelength, spectral width, chirping characteristics, amplitude.

Accompanying drawing explanation

Fig. 1 is overall structure schematic diagram of the present utility model;

Fig. 2 is electrooptic crystal of the present utility model and four Electrode connection schematic diagrames;

Fig. 3 is that pulse laser of the present utility model closes bundle schematic diagram;

Fig. 4 is that pulse laser of the present utility model closes Shu Qianhou schematic diagram.

In figure: 1-electrooptic crystal, 21-drive circuit, 22-battery lead plate, 23-battery lead plate, 24-direction of an electric field, 25-drive circuit, 26-battery lead plate, 27-battery lead plate, 28-direction of an electric field, 31-laser, 32-laser, 33-laser, 310-pulse laser, 320-pulse laser, 330-pulse laser, 4-synchronous motor, 5-laser alignment element, 6-close bundle of pulsed laser.

Embodiment

The technical solution of the utility model is understood better in order to make those skilled in the art; below in conjunction with accompanying drawing of the present utility model; clear, complete description is carried out to the technical solution of the utility model; based on the embodiment in the application; other roughly the same embodiment that those of ordinary skill in the art obtain under the prerequisite not making creative work, all should belong to the scope of the application's protection.

Embodiment one:

As shown in Figure 1, a kind of pulse laser beam merging apparatus based on four electrodes, comprises electrooptic crystal 1,2 drive circuits, 3 lasers, synchronous motor 4 and laser alignment elements 5.

As shown in Figure 2, described electrooptic crystal 1 is four prisms cylinder, has 4 sides and 2 bottom surfaces; The side that the battery lead plate 22 of drive circuit 21 and battery lead plate 23 are adjacent with 2 of electrooptic crystal 1 respectively contacts, the battery lead plate 26 of drive circuit 25 and battery lead plate 27 contact with other 2 sides of electrooptic crystal 1 respectively, battery lead plate 22 connects the positive pole of drive circuit 21, battery lead plate 23 connects the negative pole of drive circuit 21, battery lead plate 26 connects the negative pole of drive circuit 25, and battery lead plate 27 connects the positive pole of drive circuit 25; Region like this between battery lead plate 22 and battery lead plate 23 forms an electric field, direction of an electric field 24 is downward, region between battery lead plate 26 and battery lead plate 27 forms an electric field, upwards, two directions of an electric field are contrary, will inevitably produce different refractive indexes for direction of an electric field 28, be set to the electric field that direction is contrary, being be applied to voltage on electrooptic crystal 1 to reduce drive circuit, making the refractive index of 2 parts in electrooptic crystal 1 large as much as possible, to increase the deflection angle of pulse laser simultaneously.Electric field strength in addition between battery lead plate 22 and battery lead plate 23 also gradually changes, less the closer to center line electric field strength, and the electric field strength in the region between battery lead plate 26 and battery lead plate 27 also gradually changes, less the closer to center line electric field strength.So, edge is perpendicular to direction of an electric field, and refractive index gradually changes.Four electrode structures of the present utility model are simple, without the need to carrying out special processing to electrode, greatly can reduce and closing Shu Chengben.

Electrooptic crystal of the present utility model is potassium dihydrogen phosphate crystal, ammonium dihydrogen phosphate crystal, lithium columbate crystal, lithium tantalate, gallium arsenide or cadmium-telluride crystal.

As shown in figures 1 and 3, laser 31, laser 32 are all relative with the plane of incidence of electrooptic crystal 1 with the delivery outlet of laser 33, the pulse laser 320 that the pulse laser 310 that laser 31 exports, laser 32 export and the pulse laser 330 that laser 33 exports are arranged as straight line at the incoming position of the plane of incidence, this straight line is vertical with direction of an electric field, in the same position outgoing of exit facet, the direction of propagation of outgoing afterpulse laser is identical, and the plane of incidence and exit facet are respectively 2 bottom surfaces of electrooptic crystal 1.Because the volume of laser is comparatively large, between incident pulse laser, angle is less, and close bundle to realize multipath pulse laser, laser front-back staggered arranges, and namely carries out Two dimensional Distribution arrangement, can place more laser in identical space.The pulse laser that laser exports for the pulse of reruning, also can be able to be single pulse, can have the characteristics such as different pulse shape, pulse duration, wavelength, spectral width, chirping characteristics, amplitude.

Drive circuit 21, drive circuit 25, laser 31, laser 32 are all connected with synchronous motor 4 with laser 33, the moment that laser 31, laser 32 and laser 33 export pulse laser is all controlled by synchronous motor 4, the alive moment executed by drive circuit 21 and drive circuit 25 and voltage swing is also controlled by synchronous motor 4, only controlled to not only simplify beam merging apparatus by a synchronous motor 4, avoid the time difference between different synchronous motor simultaneously, improve the precision that beam merging apparatus is controlled; By synchronous motor to the control in multipath pulse laser sequential, identical or different conjunction bundle of pulsed laser interpulse period can be obtained;

The side of exit facet is located at by laser alignment element 5, perpendicular to the direction of pulse laser outgoing, for reducing the angle of divergence of closing bundle of pulsed laser 6, obtains the conjunction bundle of pulsed laser 6 of linear transmission.

As shown in Figure 3, a kind of utilization carries out closing the method for restrainting based on the pulse laser beam merging apparatus of four electrodes described above, comprises the following steps:

(1) laser 31, laser 32 is all relative with the plane of incidence of electrooptic crystal 1 with the delivery outlet of laser 33, the pulse laser 310 that laser 31 exports, the pulse laser 320 that laser 32 exports and the incoming position of pulse laser 330 on the plane of incidence that laser 33 exports are arranged as straight line, and this linear vertical is in direction of an electric field, laser 31, laser 32 and laser 33 control by synchronous motor 4, repeat to export pulse laser 310 in the different moment, pulse laser 320 and pulse laser 330, pulse laser is mutually staggered in time sequencing, just different voltage can be applied to different pulse lasers, the transmission path of each road pulse laser is controlled,

(2) pulse laser 310, pulse laser 320 and pulse laser 330 respectively in the different moment through electrooptic crystal 1, when the pulse laser 310 exported by laser 31 incides the plane of incidence of electrooptic crystal 1, synchronous motor 4 controls drive circuit 21 and drive circuit 25 pairs of electrooptic crystals 1 apply voltage U ₁, when the pulse laser 320 exported by laser 32 incides the plane of incidence of electrooptic crystal 2, synchronous motor 4 controls drive circuit 21 pairs of electrooptic crystals 1 and applies voltage U ₂, when the pulse laser 330 exported by laser 33 incides the plane of incidence of electrooptic crystal 1, synchronous motor 4 controls drive circuit 21 and drive circuit 25 pairs of electrooptic crystals 1 apply voltage U ₃, and U ₁≠ U ₂≠ U ₃, electrooptic crystal 1 applies different voltage, makes the transmission path of each pulse laser in electrooptic crystal 1 different.First pulse laser reflects when incidence, refractive index due to electrooptic crystal 1 inside gradually changes, therefore, pulse laser deflects gradually in electrooptic crystal 1 internal transmission path, in order to for simplicity in Fig. 3, merely illustrate each unirefringence in 2 electric fields of electrooptic crystal, change due to direction of an electric field in the centerline of electrooptic crystal 1, also can reflect;

In addition, pulse laser 310, pulse laser 320 and pulse laser 330 are the pulse laser of repetition rate, above-mentioned steps only describes the conjunction bundle process of each one of them pulse of pulse laser, for its after pulse, only need repeat above-mentioned steps can realize closing bundle, improve repetition rate and average power fast and effectively;

(3) pulse laser 310, pulse laser 320 and pulse laser 330 are by the exit facet outgoing of electrooptic crystal 1, and Exit positions is same point, the transmission direction of outgoing afterpulse laser is identical, through too drastic light collimating element 5 after outgoing, obtains closing bundle of pulsed laser 6.

Electrooptic crystal 1, drive circuit 21, drive circuit 25 combine with synchronous motor 4 by the utility model, drive circuit 21 and drive circuit 25 apply voltage to electrooptic crystal 1, synchronous motor 4 controls to execute alive size and moment, ingenious reverse utilization has the light deflection characteristic of electrooptic crystal 1 and the feature of pulse laser, multipath pulse laser is closed Shu Chengyi road laser, under the prerequisite not reducing pulse energy, improve repetition rate and the average power of pulse laser output.

As shown in Figure 4, laser 31 exports the pulse laser 310 of rectangle, and laser 32 exports leg-of-mutton pulse laser 320, and laser 33 exports the pulse laser 330 of rectangle, after closing bundle, can obtain closing bundle of pulsed laser 6.If desired more multipath pulse laser closes bundle, beam merging apparatus of the present utility model can be carried out plural serial stage, is about to close bundle of pulsed laser 6 again as incident pulse laser, incides on next stage electrooptic crystal.

In addition, be to be understood that, although this specification is described according to execution mode, but not each execution mode only comprises an independently technical scheme, this narrating mode of specification is only for clarity sake, those skilled in the art should by specification integrally, and the technical scheme in each embodiment also through appropriately combined, can form other execution modes that it will be appreciated by those skilled in the art that.

Claims (3)

1. based on a pulse laser beam merging apparatus for four electrodes, it is characterized in that, comprise electrooptic crystal, described electrooptic crystal is quadrangular, has 4 sides and 2 bottom surfaces; 2 drive circuits, match in the side that wherein 2 battery lead plates of 1 described drive circuit are adjacent with 2 of described electrooptic crystal respectively, 2 battery lead plates of another 1 described drive circuit match with other 2 sides of described electrooptic crystal respectively;

At least 2 lasers, the delivery outlet of described laser is all relative with the plane of incidence of described electrooptic crystal, the pulse laser that described laser exports is arranged as straight line at the incoming position of the plane of incidence, in the same position outgoing of exit facet, the direction of propagation of outgoing afterpulse laser is identical, and the plane of incidence and exit facet are respectively 2 bottom surfaces of described electrooptic crystal;

Synchronous motor, 2 described drive circuits are connected with described synchronous motor respectively with whole lasers.

2. the pulse laser beam merging apparatus based on four electrodes according to claim 1, is characterized in that, matches with positive plate and negative plate respectively in the side that described electrooptic crystal is adjacent.

3. the pulse laser beam merging apparatus based on four electrodes according to claim 2, is characterized in that, described laser is that front and back are staggered.