阅读说明：本技术 固体激光器及其工作方法及激光雷达 (Solid state laser and its working method and laser radar ) 是由 付萌 李大汕 向少卿 于 2019-08-23 设计创作，主要内容包括：一种固体激光器及其工作方法及激光雷达,所述固体激光器包括：泵浦光发射模块,用于发射泵浦光,所述泵浦光包括多路第一泵浦光,所述多路第一泵浦光方向一致且相互平行；合束模块,用于接收所述泵浦光,并将所述泵浦光合束以形成合束泵浦光；谐振模块,用于接收所述合束泵浦光并发射第一激光,所述谐振模块包括：谐振腔,所述谐振腔包括第一谐振部,所述合束泵浦光自所述第一谐振部透射至谐振腔内,以及第二谐振部,所述第一激光自所述第二谐振部发射；增益介质,所述增益介质位于第一谐振部和第二谐振部之间。所述固体激光器能够发射出高单脉冲能量的激光束。(A kind of solid state laser and its working method and laser radar, the solid state laser include: pumping optical transmitter module, and for emitting pump light, the pump light includes the first pump light of multichannel, and first pump direction of multichannel is consistent and is parallel to each other；Beam module is closed, closes beam pump light for receiving the pump light, and by the pumping combiner to be formed；Resonance modules, for receiving the conjunction beam pump light and emitting first laser, the resonance modules include: resonant cavity, the resonant cavity includes the first resonant structure, the conjunction beam pump light is transmitted through in resonant cavity from first resonant structure, and second resonant structure, the first laser emit from second resonant structure；Gain media, the gain media is between the first resonant structure and the second resonant structure.The solid state laser can launch the laser beam of high single pulse energy.)

1. a kind of solid state laser characterized by comprising

Optical transmitter module is pumped, for emitting pump light, the pump light includes the first pump light of multichannel, and the multichannel first pumps Pu light direction is consistent and is parallel to each other；

Beam module is closed, closes beam pump light for receiving the pump light, and by the pumping combiner to be formed；

Resonance modules, for receiving the conjunction beam pump light and emitting first laser, the resonance modules include: resonant cavity, institute Stating resonant cavity includes the first resonant structure, and the conjunction beam pump light is transmitted through in resonant cavity and second from first resonant structure Resonant structure, the first laser emit from second resonant structure；

Gain media, the gain media is between the first resonant structure and the second resonant structure.

2. solid state laser according to claim 1, which is characterized in that the pumping optical transmitter module includes multiple first Optical transmitter module is pumped, for emitting the first pump light of multichannel；The conjunction beam module includes focus module, for focusing the pump Pu light becomes the conjunction beam pump light；It is described first pumping optical transmitter module include: the first transmitting module, the first steering module with And the first collimating module between first transmitting module and first steering module, first transmitting module are used In emitting the first initial pump light, the first initial pump light direction is consistent and is parallel to each other, and first collimating module is used In collimating the first initial pump light, first steering module is used to turn to the first initial pump light being collimated For the first pump light.

3. solid state laser according to claim 2, which is characterized in that the resonance modules further include: be located at the increasing Quality factor adjuster between beneficial medium and second resonant structure.

4. solid state laser according to claim 3, which is characterized in that the quality factor adjuster includes quality factor Crystal is adjusted, it is saturable absorber that the quality factor, which adjust crystal, and the quality factor adjust crystal with opposite The second face of the first face of adjuster and adjuster；The gain media has opposite the first face of gain media and gain media second Face, second face of gain media and adjuster the second face Direct Bonding are bonded by adhesive layer.

5. solid state laser according to claim 4, which is characterized in that first resonant structure includes being located at gain media The first medium film in the first face surface；Second resonant structure includes the second medium film positioned at the first face of adjuster surface.

6. solid state laser according to claim 2, which is characterized in that the pumping optical transmitter module further include: second Polarized pump optical transmitter module, for emitting multichannel the second polarized pump light, the second polarized pump of multichannel light direction is consistent And it is parallel to each other；The pump light further includes the second polarized pump of multichannel light.

7. solid state laser according to claim 6, which is characterized in that the conjunction beam module further includes polarization coupling mould Block, for closing the first pump light of Shu Suoshu multichannel and the multichannel the second polarized pump light before focusing the pump light.

8. solid state laser according to claim 7, which is characterized in that the second polarized pump optical transmitter module packet It includes: multiple second pumping optical transmitter modules, for emitting the second pump light of multichannel；Described second, which pumps optical transmitter module, includes: Second transmitting module, the second steering module and between second transmitting module and second steering module second Collimating module, for second transmitting module for emitting the second initial pump light, second collimating module is described for collimating Second initial pump light, second steering module are used to turn to the second initial pump light being collimated as the second pumping Light；The second polarized pump optical transmitter module further include: polarization module, for adjusting the polarization direction of second pump light As the second initial polarization pump light；Third steering module, for turning to the second initial polarization pump light for second partially Shake pump light.

9. solid state laser according to claim 2, which is characterized in that further include: metal shell, the metal shell are close Envelope, the pump emission module, the conjunction beam module and the resonance modules are located in the metal shell, and the metal-back Body also has mounting surface, and the conjunction beam module and the resonance modules are fixed on the mounting surface.

10. solid state laser according to claim 9, which is characterized in that further include: step group, the step group are fixed In the mounting surface, the step group includes multiple stage portions, on the direction perpendicular to the mounting surface, each stage portion Size it is different, it is each it is described first pumping optical transmitter module is individually fixed in each stage portion.

11. solid state laser according to claim 9, which is characterized in that there is the first through portion on the metal shell, First through position is in the optical path of the first laser；The solid state laser further includes diaphragm, the diaphragm It is fixed on the metal shell, and covers first through portion.

12. solid state laser according to claim 1, which is characterized in that further include: laser focus module, for focusing The first laser forms second laser；Optical fiber, for receiving and transmitting the second laser.

13. solid state laser according to claim 3, which is characterized in that the gain media is anisotropic gain Medium.

14. solid state laser according to claim 6, which is characterized in that the gain media is isotropic gain Medium.

15. a kind of working method using such as the described in any item solid state lasers of claim 1 to 14, which is characterized in that packet It includes:

Emit pump light, the pump light includes the first pump light of multichannel, and first pump direction of multichannel is consistent and mutual In parallel；

The pump light is received, and the pumping combiner is formed and closes beam pump light；

The conjunction beam pump light is received, and emits first laser.

16. the working method of solid state laser according to claim 15, which is characterized in that when the solid state laser The conjunction beam module includes that the focus module, the pumping optical transmitter module include multiple first pumpings light emitting moulds Block, the first pumping optical transmitter module include first transmitting module, first collimating module and first steering When module, the working method further include: transmitting the first initial pump of multichannel light；Collimate the first initial pump light described in multichannel； The collimated multichannel the first initial pump light is turned to as the first pump light of multichannel；The pump light is focused as the conjunction Beam pump light.

17. the working method of solid state laser according to claim 16, which is characterized in that when the solid state laser When the pumping optical transmitter module further includes the second polarized pump optical transmitter module, the working method further include: transmitting Multichannel the second polarized pump light, the second polarized pump of multichannel light direction are consistent and parallel to each other；The pump light further includes The second polarized pump of multichannel light.

18. the working method of solid state laser according to claim 17, which is characterized in that when the solid state laser The second polarized pump optical transmitter module includes the polarization module, the third steering module and multiple second pumpings Optical transmitter module, and the second pumping optical transmitter module includes second transmitting module, second collimating module and institute When stating the second steering module, the working method further include: the second initial pump light of transmitting；Collimate second initial pump Light；It is the second pump light that collimated the second initial pump light, which is turned to,；Adjust the polarization direction of second pump light As the second initial polarization pump light；It is the second polarized pump light that the second initial polarization pump light, which is turned to,.

19. the working method of solid state laser according to claim 15, which is characterized in that when the solid state laser also When including the metal shell and the diaphragm with first through portion, the working method further include: transmission institute State first laser.

20. the working method of solid state laser according to claim 15, which is characterized in that when the solid state laser also Including the laser focus module and when the optical fiber, the working method further include: focus the first laser and form second Laser；Transmit the second laser.

21. a kind of laser radar characterized by comprising such as the described in any item solid state lasers of claim 1 to 14.

Technical field

The present invention relates to field of laser device technology more particularly to a kind of solid state laser and its working method and laser thunders It reaches.

Background technique

The solid state laser (DPSSL) of diode-end-pumped is used as a kind of new laser, quickly grows in recent years. Compared to conventional lights light-pumped solid state laser, the semiconductor laser of DPSSL specific wavelength has reached more instead of flash lamp High light light conversion efficiency and longer working time, it is widely used in fiber optic communication, optical image security and laser printing etc. Field.Moreover, light source of the DPSSL as laser radar, the also great application prospect in laser radar field.Solid State Laser It is necessary to have following characteristics as the light source of laser radar for device: 1) since the optical source wavelength of laser radar is in human eye visible light wave Outside segment limit, therefore it is required that laser has high-peak power and high energy, thus high-peak power and high energy Be conducive to improve measurement distance and signal-to-noise ratio.2) the simple and compact for structure of solid state laser is needed, to reduce entire radar Size.3) since laser radar working environment is changeable, performance is easy by effect of natural conditions such as atmospheric environment, temperature, because This needs solid state laser reliability and stability with higher.

However that there are still single pulse energies is not high enough for the solid state laser of diode-end-pumped at present, fixing structure is still Not compact enough the and problem for causing performance unstable that is easily affected by the external environment.

Summary of the invention

Present invention solves the technical problem that being the single pulse energy for improving the solid state laser of diode-end-pumped, knot Structure compactness and stability.

In order to solve the above technical problems, technical solution of the present invention provides a kind of solid state laser, comprising: pumping light emitting mould Block, for emitting pump light, the pump light includes the first pump light of multichannel, and first pump direction of multichannel is consistent and phase It is mutually parallel；Beam module is closed, for receiving the pump light, and emits and closes beam pump light, and by the pumping combiner to be formed Close beam pump light；Resonance modules, for receiving the conjunction beam pump light and emitting first laser, the resonance modules include: humorous Shake chamber, and the resonant cavity includes the first resonant structure, and the conjunction beam pump light is transmitted through in resonant cavity from first resonant structure, with And second resonant structure, the first laser emit from second resonant structure；Gain media, it is humorous that the gain media is located at first Between vibration portion and the second resonant structure.

Optionally, the pumping optical transmitter module includes multiple first pumping optical transmitter modules, for emitting multichannel first Pump light；The conjunction beam module includes focus module, for focusing the pump light as the conjunction beam pump light；Described first Pumping optical transmitter module includes: the first transmitting module, the first steering module and is located at first transmitting module and described the The first collimating module between one steering module, first transmitting module for emit the first initial pump light, described first Initial pump light direction is consistent and is parallel to each other, and first collimating module is described for collimating the first initial pump light It is the first pump light that first steering module, which is used to turn to the first initial pump light being collimated,.

Optionally, the resonance modules further include: the quality between the gain media and second resonant structure Factor adjuster.

Optionally, the quality factor adjuster includes that quality factor adjust crystal, and the quality factor adjust crystal and are Saturable absorber, and the quality factor adjuster has opposite the second face of the first face of adjuster and adjuster；The increasing Beneficial medium has opposite the second face of the first face of gain media and gain media, second face of gain media and the adjuster Second face Direct Bonding is bonded by adhesive layer.

Optionally, first resonant structure includes the first medium film positioned at the first face of gain media surface；Described second Resonant structure includes the second medium film positioned at the first face of adjuster surface.

Optionally, the pumping optical transmitter module further include: the second polarized pump optical transmitter module, for emitting multichannel Two polarized pump light, the second polarized pump of multichannel light direction are consistent and parallel to each other；The pump light further includes described more Road the second polarized pump light.

Optionally, the conjunction beam module further includes polarization coupling module, for closing beam institute before focusing the pump light State the first pump light of multichannel and the multichannel the second polarized pump light.

Optionally, the second polarized pump optical transmitter module includes: multiple second pumping optical transmitter modules, for emitting The second pump light of multichannel；It is described second pumping optical transmitter module include: the second transmitting module, the second steering module and be located at institute State the second collimating module between the second transmitting module and second steering module, second transmitting module is for emitting the Two initial pump light, for collimating the second initial pump light, second steering module is used for second collimating module It is the second pump light that collimated the second initial pump light, which is turned to,；The second polarized pump optical transmitter module is also wrapped Include: polarization module, the polarization direction for adjusting second pump light become the second initial polarization pump light；Third turns to mould Block is the second polarized pump light for turning to the second initial polarization pump light.

Optionally, further includes: metal shell, the metal shell sealing, the pump emission module, the conjunction beam module It is located in the metal shell with the resonance modules, and the metal shell also has mounting surface, the conjunction beam module and institute It states resonance modules and is fixed on the mounting surface.

Optionally, further includes: step group, the step group are fixed on the mounting surface, and the step group includes multiple Rank portion, on the direction perpendicular to the mounting surface, the size of each stage portion is different, each first pumping light emitting Module is individually fixed in each stage portion.

Optionally, there is the first through portion, first through position is in the first laser on the metal shell In optical path；The solid state laser further includes diaphragm, and the diaphragm is fixed on the metal shell, and covers described first Through portion.

Optionally, further includes: laser focus module forms second laser for focusing the first laser；Optical fiber is used for It receives and transmits the second laser.

Optionally, the gain media is anisotropic gain media.

Optionally, the gain media is isotropic gain media.

Correspondingly, on the other hand technical solution of the present invention provides a kind of working method of above-mentioned solid state laser, comprising: hair Pump light is penetrated, the pump light includes the first pump light of multichannel, and first pump direction of multichannel is consistent and parallel to each other；It connects The pump light is received, and the pumping combiner is formed and closes beam pump light；The conjunction beam pump light is received, and emits first and swashs Light.

Optionally, when the conjunction beam module of the solid state laser includes the focus module, the pumping light emitting Module include it is multiple it is described first pumping optical transmitter modules, it is described first pumping optical transmitter module include it is described first transmitting mould When block, first collimating module and first steering module, the working method further include: transmitting the first primary pump of multichannel Pu light；Collimate the first initial pump light described in multichannel；The collimated multichannel the first initial pump light is turned to as multichannel the One pump light；The pump light is focused as the conjunction beam pump light.

Optionally, when the pumping optical transmitter module of the solid state laser further includes the second polarized pump light hair When penetrating module, the working method further include: transmitting the second polarized pump of multichannel light, the second polarized pump of multichannel light direction It is consistent and parallel to each other；The pump light further includes the second polarized pump of multichannel light.

Optionally, when the second polarized pump optical transmitter module of the solid state laser include the polarization module, The third steering module and multiple second pumping optical transmitter modules, and the second pumping optical transmitter module includes described When the second transmitting module, second collimating module and second steering module, the working method further include: transmitting second Initial pump light；Collimate the second initial pump light；Collimated the second initial pump light is turned to as the second pumping Light；The polarization direction for adjusting second pump light becomes the second initial polarization pump light；Second initial polarization is pumped It is the second polarized pump light that light, which turns to,.

Optionally, when the solid state laser further includes the metal shell and the window with first through portion When mouth piece, the working method further include: transmit the first laser.

Optionally, when the solid state laser further includes the laser focus module and the optical fiber, the work side Method further include: focus the first laser and form second laser；Transmit the second laser.

Correspondingly, on the other hand technical solution of the present invention provides a kind of laser radar, comprising: above-mentioned solid state laser.

Compared with prior art, technical solution of the present invention has the advantages that

In the solid state laser of technical solution of the present invention, emit pump light, and the pump light includes multichannel direction one The first pump light for causing and being parallel to each other, therefore when subsequent conjunction beam module reception first pump light, each first pumping Each hot spot of the light on the plane of incidence for closing beam module will not mutually overlap mutually.Each first pump light will not be handed between each other Mistake, and then reduce the energy lost when forming the conjunction beam pump light with the pump light.Meanwhile the conjunction beam pump light It is formed by the pump light, and the pump light includes the first pump light described in multichannel, therefore compared to the pump for only including light all the way For the light of Pu, the conjunction beam pump light has higher energy, when the conjunction beam pump light enters the gain media resonant cavity When, more atoms in the gain media resonant cavity can be made to be changed into high level by low-lying level after absorbing energy, that is, improved The inverted population of the gain media resonant cavity, it is therefore, described when pumping forms laser generation in the resonant cavity There are more high level atomic transformations to become low-lying level atom in resonant cavity, that is, there are more reverse ion numbers in pumping It can invert, so that the solid state laser is capable of forming the higher first laser of single pulse energy.

Further, described more due to using the multiple first transmitting module to emit the first initial pump of multichannel light The structure of a first transmitting module will lead to the subsequent multichannel the first initial pump light on the plane of incidence for closing beam module Hot spot overall dimensions be unfavorable for greatly very much closing interfascicular spacing it is larger, therefore, when will be described using first steering module When the steering of first initial pump light is the first pump light, the hot spot entirety ruler on the conjunction beam module plane of incidence can be reduced It is very little, be conducive to that the conjunction beam module is made to become smaller, and then achieved the purpose that make the solid state laser to minimize, reduce described the Spacing between one initial pump light；Simultaneously as the conjunction beam module receives the pump light, and the pump light include by The first pump light of the multichannel that multichannel the first initial pump light turns to, therefore reduce each first initial pump light Between spacing the conjunction beam module can be made to become smaller, and then reduce the size of the solid state laser.

Further, since the quality factor adjuster includes that the quality factor adjust crystal, and the quality is adjusted Crystal is the unsaturated absorber, therefore after the gain media receives the conjunction beam pump light of high-energy, described Inverted population in gain media can reach the critical number more quickly to form laser, and then the solid state laser The laser of more Gao Zhongying can be launched.Also, due to the resonant cavity for forming microchip structure, the resonance can be shortened The chamber of chamber is long, keeps the laser structure compact, is conducive to that the solid state laser is made to provide the laser of Gao Zhongying, narrow spaces. Meanwhile microchip structure also help reduce solid state laser number of elements, thereby reduce the solid state laser at This.

Further, since the metal shell seals so that the solid state laser forms integral type encapsulation, and the pump Pu optical transmitter module, the conjunction beam module and the resonance modules are located in the metal shell, therefore the solid state laser It is not easy to be influenced by external environment, work that can be stable, and then improves and described first swashed by the solid state laser emits The stability of light；Simultaneously because metal shell has good heat conductivity, therefore can be preferably by the intracorporal heat of metal-back Amount is transmitted to outside metal shell, is reduced the intracorporal temperature of metal-back, is avoided the solid state laser due to being influenced by high temperature And can not be stable work.

Further, on the direction of the mounting surface perpendicular to the metal shell, due to each stage portion of the step group Size it is different, and each first pumping optical transmitter module is individually fixed in each stage portion, therefore vertical In on the direction of the mounting surface of the metal shell, the height of each first transmitting module is different, described first launched The height of initial pump light is different, when different the first initial pump light of each height turn to be each height it is different described the After one pump light, different hot spots can be formed in the focus module, be utilized simple structure can make it is each described First pump light is transmitted to the focus module non-interferencely and is focused conjunction beam, damage when reducing to form the conjunction beam pump light The energy of mistake.

Further, it is formed due to the conjunction beam pump light by the pump light, and the pump light includes the multichannel One pump light, and the gain media is anisotropic gain media, has different suctions to the incident light of different directions polarization Coefficient and emission cross section are received, therefore the gain media can be suitable for the conjunction beam pump light.

Further, it is formed due to the conjunction beam pump light by the pump light, and the pump light includes the multichannel One pump light and the multichannel the second polarized pump light, and the gain media is isotropic gain media, to not Tongfang There are identical absorption coefficient and emission cross section to the incident light of polarization, therefore the conjunction beam pump light can be suitable for.

Correspondingly, swashing in the working method of the solid state laser of technical solution of the present invention due to using above-mentioned solid Light device forms the first laser or the second laser, therefore can be improved the single pulse energy of laser.

Correspondingly, in the laser radar of technical solution of the present invention, due to including above-mentioned solid state laser, when more When light source of the first laser or the second laser of high pulse energy as the laser radar, be conducive to described in raising The measurement distance and signal-to-noise ratio of laser radar.Moreover, due to reducing the size and cost of the solid state laser, Also the size and cost of the laser radar can be accordingly decreased.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of solid state laser；

Fig. 2 is the structural schematic diagram of the solid state laser of the embodiment of the present invention；

Fig. 3 is the schematic diagram of the section structure of the Fig. 2 on the direction AB；

Fig. 4 is the structural schematic diagram of the solid state laser of another embodiment of the present invention；

Fig. 5 is the schematic diagram of the section structure of Fig. 4 in the cd direction；

Fig. 6 is the structural schematic diagram of the solid state laser of another embodiment of the present invention；

Fig. 7 is the schematic diagram of the section structure of the Fig. 6 on the direction EF；

Fig. 8 is the schematic diagram of the section structure of the Fig. 6 on the direction MN.

Specific embodiment

As stated in the background art, the single pulse energy of the solid state laser of diode-end-pumped is not high enough at present, Gu The structure of body laser is still not compact enough, and solid state laser is easier to be affected by the external environment and causes performance unstable.

Fig. 1 is a kind of structural schematic diagram of solid state laser, comprising: pump light source emitter semiconductor laser 110, For emitting initial pump light 120 all the way；Condenser lens 130 forms pump light 140 for focusing the initial pump light 120； Resonance modules 170, for receiving the pump light 140 and exporting laser 180, the resonance modules 170 include: resonant cavity, institute Stating resonant cavity includes the first resonant structure 171 and the second resonant structure 172, and the pump light 140 is transmitted from first resonant structure 171 In to the resonant cavity, and laser 180 emits from second resonant structure 172；Positioned at first resonant structure 171 and described Gain media 150 between second resonant structure 172；Sum between the gain media 150 and second resonant structure 172 Quality factor adjustment module device 160.

The working method of the solid state laser is as follows:

Emit initial pump light 120 all the way；

It focuses the initial pump light 120 and forms pump light 140；

The pump light 140 is incident to the gain media in the resonance modules 170 by first resonant structure 171 150, while 160 regulation quality factor of quality factor adjuster makes the resonant cavity be in high loss state, therefore the gain The low-lying level atom energy conversion (not shown) for absorbing the pump light 140 in medium 150 is high level atom (not shown)；

160 regulation quality factor of quality factor adjuster makes the resonant cavity be in low-loss state and forms laser vibration It swings, the high level atomic transformation in the gain media 150 is low-lying level atom and forms laser 180.

In the above-mentioned methods, only one pump light source emitter 110, therefore it is only capable of transmitting initial pump light 120 all the way, Lead to the absorbent little energy of low-lying level atom institute in the gain media 150, so that it is former to form a large amount of high level Sub (inverted population amount is few), when laser generation, it is concurrent that only a small amount of high level atom can be changed into low-lying level atom Laser is projected, therefore the solid state laser single pulse energy is not high enough, and then above-mentioned solid state laser is limited when in use System.

To solve above-mentioned technical problem, technical solution of the present invention provides a kind of solid state laser and its work side Method can increase the inverted population amount in gain media to improve the single pulse energy of solid state laser, and then expand solid Application of the laser in laser radar, while it includes the solid state laser that technical solution of the present invention also provides accordingly Laser radar.

It is understandable to enable above-mentioned purpose of the invention, feature and beneficial effect to become apparent, with reference to the accompanying drawing to this The specific embodiment of invention is described in detail.

Fig. 2 is the structural schematic diagram of the solid state laser of the embodiment of the present invention, and Fig. 3 is section knot of the Fig. 2 on the direction AB Structure schematic diagram.

Referring to FIG. 2, the solid state laser includes: pumping optical transmitter module, for emitting pump light, the pump light Including the first pump light of multichannel 202,202 direction of the first pump light of multichannel is consistent and is parallel to each other；Beam module is closed, for connecing First pump light of multichannel 202 is received, and is formed and closes beam pump light 203；Resonance modules 230, for receiving the conjunction beam pumping Light 203, and emit first laser 204.

It is described in detail below with reference to attached drawing.

Fig. 2 and Fig. 3 are please referred to, the pumping optical transmitter module includes 3 first pumping optical transmitter modules 210, for sending out 3 the first pump lights of tunnel 202 are penetrated, 3 tunnel, first pump light, 202 directions are consistent and parallel to each other, and the pump light includes described 3 The first pump light of road 202.

Wherein, the first pumping optical transmitter module 210 includes: the first transmitting module 211, for emitting the first primary pump Pu light 201；First collimating module 214, for collimating the first initial pump light 201；First steering module 215, being used for will It is the first pump light 202 that the first initial pump light 201 being collimated, which turns to,.Wherein, first collimating module 214 Between first transmitting module 211 and first steering module 215.

In the present embodiment, since 3 tunnel, first pump light 202 is collimated light, 202 side of the first pump light of 3 tunnel To consistent and be parallel to each other, therefore when subsequent conjunctions beam module reception 3 tunnel, first pump light 202,3 tunnel, first pump light 3 hot spots on the plane of incidence for closing beam module will not mutually overlap mutually.

In the present embodiment, the structure of 3 first transmitting modules 211 can make the overall dimensions of 3 hot spots not Conducive to beam (both horizontally and vertically size difference is big) is closed, therefore, when the institute that will be collimated using first steering module 215 State the first initial pump light 201 turn to be the first pump light 202 when, can reduce it is described conjunction the beam module plane of incidence on the light Spot overall dimensions are conducive to that the conjunction beam module is made to become smaller, and then have achieved the purpose that minimize the solid state laser.

In another embodiment, the quantity of the first pumping optical transmitter module is multiple in addition to 3, e.g. 2 A, 4 or 5 etc..

Due to it is described first pumping optical transmitter module 210 quantity be it is various, can increase subsequent transmission go out The first laser 205 pulse energy when, according to the limitation of the solid state laser size, the first pump described in flexible choice The quantity of Pu optical transmitter module 210.

In the present embodiment, first transmitting module 211 is semiconductor laser module.

In the present embodiment, first collimating module 214 includes: fast axis collimation mirror 212, for initial to described first 201 light-emitting surface fast axis direction of pump light is collimated；Slow axis collimating mirror 213, for shining to the first initial pump light 201 Face slow-axis direction is collimated.It is quasi- that the distance of the fast axis collimation mirror 212 to first transmitting module 211 is less than the slow axis Straight mirror 213 is to the distance of first transmitting module 211, i.e., the described fast axis collimation mirror 212 is prior to the slow axis collimating mirror 213 Receive the first initial pump light 201.

First transmitting module 211 be edge transmitting type semiconductor laser module, the fast axle of the first initial pump light 201 with The slow-axis direction angle of divergence is inconsistent, and the angle of divergence of fast axis direction is greater than the angle of divergence of slow-axis direction.Fast axis collimation mirror is used respectively 212 and slow axis collimating mirror 213 fast axis direction of the first initial pump light 201 and slow-axis direction are collimated respectively it is (fast Slow-axis direction is mutually to vertical), the energy loss of the first initial pump light 201 can be reduced after collimation.

In another embodiment, the distance of the slow axis collimating mirror 213 to first transmitting module 211 is less than described fast Axis collimating mirror 212 is to the distance of first transmitting module 211, i.e., the described slow axis collimating mirror 212 is prior to the fast axis collimation Mirror 213 receives the first initial pump light 201.

In the present embodiment, first steering module 215 is reflecting mirror.

Please continue to refer to Fig. 2 and Fig. 3, the conjunction beam module includes focus module 220, and the focus module 220 is for gathering First pump light 202 described in burnt 3 tunnels simultaneously forms the conjunction beam pump light 203.

In the present embodiment, the focus module 220 is condenser lens.3 tunnel, first pump light 202 is poly- along being parallel to The direction of focus lens optical axis is incident to the condenser lens in favor of closing beam.

Please continue to refer to Fig. 2 and Fig. 3, the resonance modules 230 include: resonant cavity, and the resonant cavity includes the first resonance Portion (not shown) and the second resonant structure (not shown)；Gain media 231, the gain media 231 are located at first resonant structure Between second resonant structure；Quality factor adjuster 232, the quality factor adjuster 232 are located at the gain media Between 231 and second resonant structure.The conjunction beam pump light 203 is incident to the gain media by first resonant structure 231, first laser 204 is formed in the resonance modules 230, the first laser 204 is exported from second resonant structure.

In the present embodiment, the conjunction beam pump light 203 is formed by the pump light, and the pump light includes multichannel institute State the first pump light 202, therefore compared to only including all the way for the pump light of light, the conjunctions beam pump light 203 is with higher Energy can make more former in the gain media 231 when the conjunction beam pump light 203 is incident to the gain media 231 Son is changed into high level by low-lying level after absorbing energy, that is, improves the inverted population of the gain media 231, in turn, When the quality factor adjuster 232 makes the resonant cavity be in low-loss state and form laser generation, there are more institutes High level atomic transformation is stated as low-lying level atom, enables the solid state laser to emit single pulse energy higher described First laser 204.

The first laser 204 is different from the conjunction optical wavelength of beam pump light 203.

In the present embodiment, the quality factor adjuster 232 is passive type quality factor adjusting means, the quality because Number adjusters 232 include saturable absorber, cooperate the conjunction beam pump light 203 of the higher energy, are conducive to improve the into one One laser, 204 single pulse energy.

In the present embodiment, the gain media 231 is anisotropic gain media, such as material includes Cr:LiSAF Or the gain media 231 of Er:Yb:YAB.Due to the incident light that anisotropic gain media polarizes different directions have it is different Absorption coefficient and emission cross section, therefore the gain media 231 is suitable for for first pump light 202, superposition Power but the constant conjunction beam pump light 203 in polarization direction use.

In the present embodiment, the gain media 231 has opposite the first face of gain media 2311 and gain media the Two faces (not shown), the quality factor adjuster 232 have opposite the first face of adjuster 2321 and the second face of adjuster (not Diagram), second face of gain media is bonded with adjuster the second face Direct Bonding or by the way that adhesive layer is (not shown).

In the present embodiment, the gain media 231 is microplate type gain media, and the quality factor adjuster 232 is The resonance modules of microchip structure are formed after microplate type saturable absorber, bonding or bonding, therefore the resonance can be shortened The chamber of chamber is long, keeps the laser structure compact, is conducive to that the solid state laser is made to provide the laser of Gao Zhongying, narrow spaces. Moreover, additionally it is possible to which the number of elements for reducing the solid state laser advantageously reduces the cost of the solid state laser.

The quality factor adjuster 232 is by adjusting the saturable absorber to fluorescence (non-shape in the resonant cavity At before laser in resonant cavity roundtrip light) transmissivity adjusted to realize the loss state for adjusting the resonant cavity Save the quality factor of the resonant cavity.

In another embodiment, the quality factor adjuster 232 is active quality factor adjusting means, e.g.: Electro-optical type quality factor adjuster, sound-light type quality factor adjuster or tilting mirror type quality factor adjuster.

In the present embodiment, the resonance first includes being plated on the first of 2311 surface of the first face of gain media to be situated between Plasma membrane 233；The resonance second includes being plated on the second medium film 234 for adjusting 2321 surface of the first face of crystal.

The first medium film 233 has high transmittance to the wavelength for closing beam pump light 203, and swashs to described first The wavelength of light 204 has high reflectance；The second medium film 234 has high reflectance to the wavelength of the first laser 204, And the first medium film 233 is greater than the second medium film 234 to the reflectivity of the first laser 204 and swashs to described first The reflectivity of light 204.

Since the first medium film 233 is for the conjunction beam pump light 203 transmitance with higher and to described The reflectivity with higher of one laser 204, while the second medium film 234 is also with higher to the first laser 204 Reflectivity, therefore the conjunction beam pump light 203 is substantially all into the gain media 231, while reducing the resonant cavity Energy loss, avoid the waste of pump energy, be conducive to the pulse energy for improving the first laser 204.

Please continue to refer to Fig. 2 and Fig. 3, the solid state laser further includes metal shell 240, and the metal shell 240 wraps Metal end frame 241 and metal cover board 242 are included, the metal shell 240 seals, and the metal cover board 242 covers the metal bottom Frame 241 is simultaneously connect with the metal end frame 241.There is mounting surface 243 in the metal shell 240, the mounting surface 243 is institute State the one side in the inner surface of metal shell 240 relative to the metal cover board 242；Step group 260, the step group 260 are wrapped First step portion 261, second step portion 262 and third stage portion 263 are included, the step group 260 is located at the metal shell 240 It is interior and be fixed on the mounting surface 243, on the direction perpendicular to the mounting surface 243, from first step portion top surface Vertical dimension to the mounting surface is H1, is H2 from second step portion top surface to the vertical dimension of the mounting surface, from The vertical dimension of third stage portion top surface to the mounting surface is H3, and the relationship between described H1, H2 and H3 is H1 < H2 < H3.The first pumping optical transmitter module 210, the focus module 220 and the resonance modules 230 are located at the gold Belong in shell 240.Wherein, the 3 first pumpings optical transmitter module 210 is individually fixed in the first step portion 261, described In second step portion 262 and the surface of the third stage portion 263；The focus module 220 and the resonance modules 230 are fixed In on the mounting surface 243.

In the present embodiment, since the metal shell 240 seals, and the first pumping optical transmitter module 210, described Focus module 220 and the resonant cavity 230 are located in the metal shell 240, thus the solid state laser be not easy it is extraneous Environment influences, work that can be stable, and then improves the stabilization of the first laser 204 emitted by the solid state laser Property；Simultaneously because 240 material of metal shell is metal, metal has good heat conductivity, therefore the heat in metal shell 240 Amount can be preferably transmitted to outside metal shell 240, reduced the temperature in metal shell 240, avoided the solid state laser Work that can not be stable due to being influenced by high temperature.

Meanwhile on the direction of the mounting surface 243 perpendicular to the metal shell 240, due to the H1 < H2 < H3, and And each first pumping optical transmitter module 210 is individually fixed in the first step portion 261, second step portion 262 and third In stage portion 263, therefore on the direction of the mounting surface 243 perpendicular to the metal shell 240, each first transmitting module 211 height is different, and the height for the first initial pump light 201 launched is different, when each height it is different described first Initial pump light 201 turns to be different first pump light 202 of each height after, can in the focus module 220 shape At different hot spots, simple structure is utilized, and that each first pump light 202 can be made to be transmitted to non-interferencely is described Focus module 220 is focused conjunction beam, and reduces the size of focus module 220 simultaneously, is conducive to the knot for improving solid state laser Structure compactness.

In the present embodiment, there is X-direction in the plane for being parallel to the mounting surface 243, and hang down with the X-direction Straight Y-direction, 3 first steering modules 215 are arranged in a straight line in one along Y-direction, therefore can reduce the Solid State Laser The size of device in the Y direction, can suit the requirements and need the use occasion of the solid state laser of small size in the Y direction.

In another embodiment, the solid state laser does not include step group 260, the 3 first pumpings light emitting mould Block 210 is fixed on the mounting surface 243, and 3 it is described first pumping optical transmitter modules 210 in, in the Y direction with institute The vertical range for stating focus module 220 is smaller, in the X direction, described first turn in the first pumping optical transmitter module 210 It is smaller at a distance from first transmitting module 211 to module 215.

In another embodiment, since the solid state laser does not include step group 260, the solid state laser is reduced Perpendicular to the size on 243 direction of mounting surface, therefore can suit the requirements on perpendicular to 243 direction of mounting surface Need the use occasion of the solid state laser of small size.

In another embodiment, the solid state laser further includes heat sink or thermal dispersant coatings (not shown), the heat dissipation The heat conductivity of plate or thermal dispersant coatings is better than the heat conductivity of the metal shell 240, the heat sink or the thermal dispersant coatings It is fixed on the mounting surface 243, the step group 260, the focus module 220 and the resonance modules 230 are fixed on institute It states on heat sink or the thermal dispersant coatings.Since the solid state laser further includes being fixed on the described of the mounting surface 243 to dissipate Hot plate or the thermal dispersant coatings, and the heat conductivity of the heat sink or thermal dispersant coatings is passed better than the heat of the metal shell 240 The property led, therefore quickly the heat in the metal shell 240 can be transmitted to outside the metal shell 240, more quickly The temperature in metal shell 240 is reduced, being conducive to be applicable in has higher power, the bigger solid state laser of heat.

With continued reference to FIG. 2, there is the first through portion (not shown) on the metal shell 240, first through portion In the optical path of the first laser 204；The solid state laser further includes diaphragm 250, and the diaphragm 250 is fixed on The metal shell 240, and cover first through portion.The first laser 204 is by the diaphragm 250 from described solid Body laser launches outward.

In the present embodiment, the diaphragm 250 is on the metal shell 240.

In another embodiment, the diaphragm is fixed on the metal by buckle (not shown) or screw (not shown) The outer surface of shell or inner surface.

Correspondingly, the embodiment of the present invention provides a kind of working method using above-mentioned solid state laser.

Continuing with combining referring to figs. 2 and 3, emit pump light, the pump light includes the first pump light of multichannel 202, institute It is consistent and parallel to each other to state 202 directions of the first pump light of multichannel.

In the present embodiment, first pump light 202 is 3 tunnels, and the pump light includes the first pump light described in 3 tunnels 202.The method for emitting the pump light includes: 3 tunnel the first initial pump light 201 of transmitting, the first initial pump of 3 tunnel light 201 directions are consistent and parallel to each other；Collimate 3 tunnel the first initial pump light 201；By 3 collimated tunnel the first initial pump light 201 Turning to is 3 the first pump lights of tunnel 202.

In another embodiment, the pump light includes the multichannel other than 3 tunnels.

Continuing with combining referring to figs. 2 and 3, the pump light is received, and is formed and closes beam pump light 203, the conjunction beam pump Pu light 203 closes beam by 3 tunnel, first pump light 202 and is formed.

Continuing with combining referring to figs. 2 and 3, the conjunction beam pump light 203 is received, and emit first laser 204.

In the present embodiment, the working method of the solid state laser further include: the first laser of transmitting 204。

Correspondingly, the working method emits the first laser 204, energy due to using above-mentioned solid state laser Enough launch the first laser 204 of more high pulse energy, more narrow spaces, more Gao Zhongying.

Correspondingly, the embodiment of the present invention also provides a kind of laser radar, comprising: above-mentioned solid state laser (as shown in Figure 2).

In the present embodiment, since the first laser 204 with more high pulse energy is as the laser radar Light source is conducive to the measurement distance for improving the laser radar and signal-to-noise ratio.Moreover, since the solid state laser uses Integral type encapsulation has higher reliability and stability, therefore improves the reliability and stability of the laser radar.Together When, due to the cost for reducing the size of the solid state laser, reducing the solid state laser, the laser radar Also it can correspondingly reduce the size and reduce cost.

Fig. 4 is the structural schematic diagram of the solid state laser of another embodiment of the present invention, and Fig. 5 is Fig. 4 cuing open in the cd direction Face structural schematic diagram.

Fig. 4 and Fig. 5 are please referred to, the present embodiment and the difference of Fig. 2 and embodiment illustrated in fig. 3 are: the solid state laser Further include: laser focus module 270 forms second laser 205 for focusing the first laser 204；Optical fiber 280, for connecing It receives and transmits the second laser 205.Output is carried out using optical fiber to be conducive to improve beam quality, and is conducive to improve Solid State Laser The flexibility that device uses.

Correspondingly, the embodiment of the present invention provides a kind of working method using above-mentioned solid state laser.

In conjunction with reference Fig. 4 and Fig. 5, emit pump light, the pump light includes the first pump light of multichannel 202, the multichannel First pump light, 202 direction is consistent and parallel to each other.

In the present embodiment, first pump light 202 is 3 tunnels, and the pump light includes the first pump light described in 3 tunnels 202.The method for emitting the pump light includes: 3 tunnel the first initial pump light 201 of transmitting, the first initial pump of 3 tunnel light 201 directions are consistent and parallel to each other；Collimate 3 tunnel the first initial pump light 201；By 3 collimated tunnel the first initial pump light 201 Turning to is 3 the first pump lights of tunnel 202.

Fig. 4 and Fig. 5 is referred to continuing with combining, receives the pump light, and is formed and closes beam pump light 203, the conjunction beam pump Pu light 203 closes beam by 3 tunnel, first pump light 202 and is formed.

Fig. 4 and Fig. 5 is referred to continuing with combining, receives the conjunction beam pump light 203, and emit the first laser 204.

Fig. 4 and Fig. 5 is referred to continuing with combining, focuses the first laser 204, forms second laser 205.

In the present embodiment, the working method of the solid state laser further include: transmit the second laser 205.

Correspondingly, the working method emits the second laser 205, energy due to using above-mentioned solid state laser Enough launch the second laser 205 of more high pulse energy, more narrow spaces, more Gao Zhongying, and due to using the optical fiber pair The second laser 205 is transmitted, thus be conducive to improve beam quality, and be conducive to improve solid state laser use it is flexible Property.

Correspondingly, the embodiment of the present invention also provides a kind of laser radar, comprising: above-mentioned solid state laser (as shown in Figure 4).

Fig. 6 is the structural schematic diagram of the solid state laser of another embodiment of the present invention, and Fig. 7 is Fig. 6 cuing open on the direction EF Face structural schematic diagram, Fig. 8 are the schematic diagram of the section structure of the Fig. 6 on the direction MN.

Referring to FIG. 6, the solid state laser includes: pumping optical transmitter module, for emitting pump light, the pump light It include: the first pump light of multichannel 302,302 direction of the first pump light of multichannel is consistent and is parallel to each other；The second polarized pumps of multichannel Pu light 404,404 directions of the second polarized pump of multichannel light are consistent and parallel to each other；Beam module is closed, for receiving the multichannel First pump light 302 and the second polarized pump of multichannel light 404, and formed and close beam pump light 303；Resonance modules 330, are used for The conjunction beam pump light 303 is received, and emits first laser 304.

It is described in detail below with reference to attached drawing.

Fig. 6 to Fig. 8 is please referred to, the pumping optical transmitter module includes 3 first pumping optical transmitter modules 310, for sending out 3 the first pump lights of tunnel 302 are penetrated, 3 tunnel, first pump light, 302 directions are consistent and parallel to each other；Second polarized pump light emitting Module 400, for emitting 3 tunnel the second polarized pump light 404,404 direction of the second polarized pump of 3 tunnel light is consistent and mutually equal Row；The pump light includes 3 tunnel, first pump light 302 and the second polarized pump of 3 tunnel light 404.

Referring to FIG. 6, the first pumping optical transmitter module 310 includes: the first transmitting module 311, for emitting first Initial pump light 301；First collimating module 314, for collimating the first initial pump light 301；First steering module 315, It is the first pump light 302 for turning to the first initial pump light 301 of collimated mistake.Wherein, the first collimation mould Block 314 is between first transmitting module 311 and first steering module 315.

The second polarized pump optical transmitter module 400 includes: 3 second pumping optical transmitter modules 410, for emitting 3 The second pump light of road 402.It is described second pumping optical transmitter module 410 include: with first transmitting module 311 issue it is identical partially Second transmitting module 411 of the light of vibration, for emitting the second initial pump light 401；Second collimating module 414, for collimating State the second initial pump light 401；Second steering module 415, for turning to the second initial pump light 401 of collimated mistake For the second pump light 402；Polarization module 420, it is initial inclined that the polarization direction for adjusting second pump light 402 becomes second Shake pump light 403；Third steering module 430 is the second polarized pump for turning to the second initial polarization pump light 403 Light 404.Wherein, second collimating module 414 be located at second transmitting module 411 and second steering module 415 it Between.

In the present embodiment, using 3 first transmitting modules 311 emit the first initial pump of 3 tunnel light 301, Emit the second initial pump of 3 tunnel light 401 using 3 second transmitting modules 411.Emit using only described 3 first The structure of module 311 will lead to the first initial pump of 3 tunnel light 301 and be unfavorable for closing in the overall dimensions for the hot spot being subsequently formed Beam (both horizontally and vertically size difference is big) will lead to 3 tunnel using only the structure of 3 second transmitting modules 411 Second initial pump light 401 is unfavorable for closing beam in the overall dimensions for the hot spot being subsequently formed.When use first steering module 315 by collimated the first initial pump light 301 turn to be the first pump light 302 when, be conducive to reduce 3 tunnel first Overall dimensions of the initial pump light 301 in the hot spot being subsequently formed；When the institute that will be collimated using second steering module 415 It states the second initial pump light 401 to turn to when being the second pump light 402, is conducive to reduce the second initial pump of 3 tunnel light 401 and exists The overall dimensions for the hot spot being subsequently formed, and then be conducive to reduce the second pump light 402 described in 3 tunnels by the polarization module 420 and the third steering module 430 after in the overall dimensions of the hot spot being subsequently formed be conducive to that the conjunction beam module is made to become smaller, And then achieve the purpose that minimize the solid state laser.

In another embodiment, the quantity of the first pumping optical transmitter module and the second pumping optical transmitter module is It is multiple in addition to 3, e.g. 2,4 or 5 etc..

Since the quantity of the first pumping optical transmitter module 310 and the second pumping optical transmitter module 410 is multiplicity , therefore can be big according to the solid state laser when increasing the pulse energy for the first laser 305 that subsequent transmission goes out Small limitation, the quantity of the first pumping optical transmitter module 210 described in flexible choice and the second pumping optical transmitter module 410.

In the present embodiment, first transmitting module 311 and second transmitting module 411 are semiconductor laser mould Block.

In the present embodiment, first collimating module 314 includes: fast axis collimation mirror 312, for initial to described first 301 light-emitting surface fast axis direction of pump light is collimated；Slow axis collimating mirror 313, for shining to the first initial pump light 301 Face slow-axis direction is collimated.It is quasi- that the distance of the fast axis collimation mirror 312 to first transmitting module 311 is less than the slow axis Straight mirror 313 is to the distance of first transmitting module 311, i.e., the described fast axis collimation mirror 312 is prior to the slow axis collimating mirror 313 Receive the first initial pump light 301.

In another embodiment, the distance of the slow axis collimating mirror to first transmitting module is less than the fast axis collimation Mirror is to the distance of first transmitting module, i.e., the described slow axis collimating mirror is prior at the beginning of fast axis collimation mirror reception described first Beginning pump light.

In the present embodiment, second collimating module 414 includes: fast axis collimation mirror 412, for initial to described second 401 light-emitting surface fast axis direction of pump light is collimated；Slow axis collimating mirror 413, for shining to the second initial pump light 401 Face slow-axis direction is collimated.It is quasi- that the distance of the fast axis collimation mirror 412 to second transmitting module 411 is less than the slow axis Straight mirror 413 is to the distance of second transmitting module 411, i.e., the described fast axis collimation mirror 412 is prior to the slow axis collimating mirror 413 Receive the second initial pump light 401.

In another embodiment, the distance of the slow axis collimating mirror to second transmitting module is less than the fast axis collimation Mirror is to the distance of second transmitting module, i.e., the described slow axis collimating mirror is prior at the beginning of fast axis collimation mirror reception described second Beginning pump light.

In the present embodiment, first steering module 315, second steering module 415, the third steering module 430 be reflecting mirror.

In the present embodiment, the polarization module 420 is half-wave plate, and second pump light 402 is passing through the half-wave Become 90 ° of change of polarized direction of the second polarized pump light 403 after piece.

When the conjunction beam pump light first pump light 302 as described in 6 tunnels is formed, need 6 first pump lights Transmitting module 310 is fixed on different height, emits the first pump light 302 of different height, so that 6 the first pump lights of tunnel 302 Direction is consistent and is parallel to each other.And the scheme of 3 tunnel the first pump lights 302 and 3 tunnel the second polarized pump light 403 is used, due to every All the way the second polarized pump light 403 can with 302 polarization coupling of the first pump light (in sustained height) all the way, because This, it is only necessary to (one first pumping optical transmitter module 310 and one second pumping is respectively arranged in 3 height settings in each height Optical transmitter module 410), so that it may the conjunction beam of 6 road energy is realized, so as to further decrease the height of the solid state laser Degree, realizes the miniaturization of the solid state laser.

With continued reference to FIG. 6, the conjunction beam module includes: polarization coupling module 440, for closing 3 tunnel first Shu Suoshu pump Pu light 302 and the second polarized pump of 3 tunnel light 404 form 3 road polarized pump light 405；Focus module 320, the focusing mould Block 320 is for focusing polarized pump light 405 described in 3 tunnels and emitting the conjunction beam pump light 303.

In the present embodiment, the polarization coupling module 440 is polarization coupling piece.3 tunnel, first pump light 302 and institute The direction for stating 3 tunnel the second polarized pump light 404 is at 45 ° incident in favor of conjunction beam with the plane of incidence of the polarization coupling piece respectively.

In the present embodiment, the focus module 320 is condenser lens.The 3 road polarized pump light 405 is in the focusing The plane of incidence hot spot of module 320 is non-intersecting folded, and the 3 road polarized pump light 405 is along being parallel to being incident to for condenser lens optical axis The condenser lens is in favor of conjunction beam.

In the present embodiment, since the polarization coupling module 440 is superimposed 3 tunnel, first pump light 302 and 3 tunnel Second polarized pump light 404 forms 3 road polarized pump light 405, and therefore, the focus module 320 is focusing the polarized pump The conjunction beam pump light 303 formed after light 405 includes two different polarization directions.

With continued reference to FIG. 6, the resonance modules 330 include: resonant cavity, the resonant cavity include the first resonant structure (not Diagram) and the second resonant structure (not shown)；Gain media 331, the gain media 331 are located at first resonant structure and described Between second resonant structure；Quality factor adjuster 332, the quality factor adjuster 332 are located at the gain media 331 and institute It states between the second resonant structure.The conjunction beam pump light 303 is incident to the gain media 331, In by first resonant structure First laser 304 is formed in the resonance modules 330, the first laser 304 is exported from second resonant structure.

In the present embodiment, the conjunction beam pump light 303 is formed by the pump light, and the pump light includes 3 tunnel institutes State the second polarized pump light 404 described in the first tunnel of pump light 302 and 3, therefore compared to only including institute all the way for the pump light of light Stating conjunction beam pump light 303 has higher energy, when the conjunction beam pump light 303 enters the gain media 331, can make institute It states more atoms in gain media 331 and high level is changed by low-lying level after absorbing energy, that is, improve the gain and be situated between The inverted population of matter 331, in turn, when the quality factor adjuster 332 makes the resonant cavity be in low-loss state and shape When at laser generation, there are more high level atomic transformations to become low-lying level atom, enables the solid state laser Emit the higher first laser 304 of single pulse energy.

In the present embodiment, the quality factor adjuster 332 is passive type quality factor adjusting means, the quality because Number adjusters 332 include saturable absorber, cooperate the conjunction beam pump light 303 of the higher energy, are conducive to improve the into one One laser, 304 single pulse energy.

In the present embodiment, the gain media 331 be isotropic gain media, such as material include Nd:YAG or The gain media 331 of Nd:YVO4.Since the incident light that isotropic gain media polarizes different directions has identical absorption Coefficient and emission cross section, therefore the gain media 331 is suitable for being superimposed power and including described in different polarization directions Beam pump light 303 is closed to use.

In the present embodiment, the gain media 331 has opposite the first face of gain media 3311 and gain media the Two faces (not shown)；The quality factor adjuster 332 has opposite the first face of adjuster 3321 and the second face of adjuster (not Diagram), second face of gain media is bonded with adjuster the second face Direct Bonding or by the way that adhesive layer is (not shown).

In the present embodiment, the gain media 331 is microplate type gain media, and the quality factor adjuster 332 is The resonance modules of microchip structure are formed after microplate type saturable absorber, bonding or bonding, therefore the resonance can be shortened The chamber of chamber is long, keeps the laser structure compact, is conducive to that the solid state laser is made to provide the laser of Gao Zhongying, narrow spaces. Moreover, additionally it is possible to which the number of elements for reducing the solid state laser advantageously reduces the cost of the solid state laser.

In another embodiment, the quality factor adjuster is active quality factor adjusting means, e.g.: electric light Type quality factor adjuster, sound-light type quality factor adjuster or tilting mirror type quality factor adjuster.

In the present embodiment, the resonance first includes being plated on the first of 3311 surface of the first face of gain media to be situated between Plasma membrane 333；The resonance second includes being plated on the second medium film 334 for adjusting 3321 surface of the first face of crystal.

The first medium film 333 has high transmittance to the wavelength for closing beam pump light 303, and swashs to described first The wavelength of light 304 has high reflectance；The second medium film 334 has high reflectance to the wavelength of the first laser 304, And the first medium film 333 is greater than the second medium film 334 to the reflectivity of the first laser 304 and swashs to described first The reflectivity of light 304.

Since the first medium film 333 is for the conjunction beam pump light 303 transmitance with higher and to described The reflectivity with higher of one laser 304, while the second medium film 334 is also with higher to the first laser 304 Reflectivity, therefore the conjunction beam pump light 303 is substantially all into the gain media 231, while reducing the resonant cavity Energy loss, avoid the waste of pump energy, be conducive to the pulse energy for improving the first laser 304.

Please continue to refer to Fig. 6 to Fig. 8, the solid state laser further includes metal shell 340, and the metal shell 340 wraps Metal end frame 341 and metal cover board 342 are included, the metal shell 340 seals, and the metal cover board 342 covers the metal bottom Frame 341 is simultaneously connect with the metal end frame 341.There is mounting surface 343 in the metal shell 340, the mounting surface 343 is institute State the one side in the inner surface of metal shell 340 relative to the metal cover board 342；First step group 360, the first step Group 360 includes first step portion 361, second step portion 362 and third stage portion 363, and the first step group 360 is located at described It in metal shell 340 and is fixed on the mounting surface 343, on the direction perpendicular to the mounting surface 343, from described first The vertical dimension of 361 top surface of stage portion to the mounting surface is D1, from 362 top surface of second step portion to the mounting surface Vertical dimension is D2, is D3, and described D1, D2 from 363 top surface of third stage portion to the vertical dimension of the mounting surface Relationship between D3 is D1 < D2 < D3；Second step group 460, the second step group 460 include the 4th stage portion 461, 5th stage portion 462 and the 6th stage portion 463, the second step group 460 are located in the metal shell 340 and are fixed on institute It states on mounting surface 343, on the direction perpendicular to the mounting surface 243, from 461 top surface of the 4th stage portion to the installation The vertical dimension in face is D1, is D2 from 462 top surface of the 5th stage portion to the vertical dimension of the mounting surface, from the described 6th The vertical dimension of 463 top surface of stage portion to the mounting surface is D3.First the pumping optical transmitter module 310, the second polarized pumps Pu optical transmitter module 400, the conjunction beam module, the focus module 320 and the resonance modules 330 are located at the metal shell In 340.Wherein, the 3 first pumpings optical transmitter module 310 is individually fixed in the first step portion 361, second described In rank portion 362 and the surface of the third stage portion 363；The 3 second pumpings optical transmitter module 410 is individually fixed in described On the surface of 4th stage portion 461, the 5th stage portion 462 and the 6th stage portion 463；The polarization coupling module 440, the focus module 320 and the resonance modules 330 are fixed on the mounting surface 343.

In the present embodiment, due to it is described first pumping optical transmitter module 310, the second polarized pump optical transmitter module 400, The focus module 320 and the resonant cavity 330 are located in the metal shell 340, thus the solid state laser be not easy by External environment influences, work that can be stable, and then improves the first laser 304 emitted by the solid state laser Stability；Simultaneously because 340 material of metal shell is metal, metal has good heat conductivity, therefore in metal shell 340 Heat can preferably be transmitted to outside metal shell 340, reduce metal shell 340 in temperature, avoid the solid swash Light device can not be stable due to being influenced by high temperature work.

In the present embodiment, due on the direction of the mounting surface 343 perpendicular to the metal shell 340, described first Stage portion 361 and the 4th stage portion 461 all have dimension D 1, the second step portion 362 and the 5th stage portion 462 All all there is dimension D 3, i.e. the first pump described in 3 tunnels with dimension D 2, the third stage portion 363 and the 6th stage portion 463 It is all hanging down with having in the second polarized pump light 404 described in 3 tunnels all the way in Pu light 302 per the first pump light 302 described all the way Directly in identical height on the direction of the mounting surface 343 of the metal shell 340.Simple structure, which is utilized, can make each institute It states the first pump light 302 and each second polarized pump light 404 is transmitted to the polarization coupling module 440 non-interferencely, And the size of focus module 320 is reduced simultaneously, be conducive to the compact-sized degree for improving solid state laser.

Fig. 6 to Fig. 8 is please referred to, there is the first through portion (not shown) on the metal shell 340, first through portion In the optical path of the first laser 304；The solid state laser further includes diaphragm 350, and the diaphragm 350 is fixed on The metal shell 340, and cover first through portion.The first laser 304 is by the diaphragm 350 from described solid Body laser launches outward.

In the present embodiment, the diaphragm 350 is on the metal shell 340.

In another embodiment, the solid state laser further include: laser focus module (not shown), it is described for focusing First laser 304 forms second laser (not shown)；Optical fiber (not shown), for receiving and transmitting the second laser.It utilizes Optical fiber carries out output and is conducive to improve beam quality, and is conducive to improve the flexibility that solid state laser uses.

In the present embodiment, the solid state laser further includes pin, is used for the solid state laser and the solid The circuit of laser external is electrically connected.

Correspondingly, the embodiment of the present invention provides a kind of working method using above-mentioned solid state laser.

Incorporated by reference to reference Fig. 6 to Fig. 8, emit pump light, the pump light includes: the first pump light of multichannel 302, described more Road 302 directions of the first pump light are consistent and parallel to each other；The second polarized pump of multichannel light 404, second polarized pump of multichannel 404 direction of light is consistent and parallel to each other.

In the present embodiment, first pump light of multichannel 302 and the second polarized pump of multichannel light 404 are 3 tunnels. The method for emitting the pump light includes: the second initial pump light described in the first tunnel of initial pump light 301 and 3 described in 3 tunnels of transmitting 401,301 directions of the first initial pump of 3 tunnel light are consistent and parallel to each other, 401 direction one of the second initial pump of 3 tunnel light It causes and parallel to each other；Collimate the second initial pump light 401 described in the first tunnel of initial pump light 301 and 3 described in 3 tunnels；It will be collimated 3 tunnels described in the second initial pump light 401 described in the first tunnel of initial pump light 301 and 3 turned to respectively as the first pumping described in 3 tunnels Second pump light 402 described in the tunnel of light 302 and 3；The polarization direction for adjusting second pump light 402 is pumped as the second initial polarization The polarization direction of Pu light 403, second pump light 402 is changed 90 °；The second initial polarization pump light 403 is turned to For the second polarized pump light 404.

Fig. 6 to Fig. 8 is referred to continuing with combining, receives the pump light, and by 3 tunnel, first pump light 302 and described 3 The second polarized pump light 404 polarization coupling in road, which is formed, closes beam pump light 303.

Fig. 6 to Fig. 8 is referred to continuing with combining, receives the conjunction beam pump light 303, and emit first laser 304.

In the present embodiment, the working method of the solid state laser further include: transmit the first laser 304.

In another embodiment, the working method of the solid state laser further include: focus the first laser 304, shape At second laser (not shown)；Transmit the second laser.

Correspondingly, emitting the first laser 304 or the second since the working method uses above-mentioned solid state laser Laser, therefore the first laser 304 or described with more high pulse energy, more narrow spaces, more Gao Zhongying can be launched Second laser.Simultaneously as transmitting the second laser using the optical fiber, therefore be conducive to improve beam quality, And it is conducive to improve the flexibility that solid state laser uses.

Correspondingly, the embodiment of the present invention also provides a kind of laser radar, comprising: above-mentioned solid state laser.

Due to having the first laser 304 of more high pulse energy or the second laser as the laser radar Light source is conducive to the measurement distance for improving the laser radar and signal-to-noise ratio.Moreover, since the solid state laser uses Integral type encapsulation has higher reliability and stability, therefore improves the reliability and stability of the laser radar.Together When, due to the cost for reducing the size of the solid state laser, reducing the solid state laser, the laser radar Also it can correspondingly reduce the size and reduce cost.

Although present disclosure is as above, present invention is not limited to this.Anyone skilled in the art are not departing from this It in the spirit and scope of invention, can make various changes or modifications, therefore protection scope of the present invention should be with claim institute Subject to the range of restriction.