CN209029672U - Pump module and solid state laser with it - Google Patents

Abstract

The utility model provides a kind of pump module and the solid state laser with it.The pump module includes: pumping source, and pumping source is two and is arranged side by side, for providing first laser and second laser；Fast axis collimation element is set to the light emission side of pumping source, for carrying out fast axis collimation to first laser and second laser；Polarization coupling element is set to the light emission side of fast axis collimation element, for being mutually perpendicular to the polarization direction of the first laser after fast axis collimation and second laser and close beam to obtain third laser；Slow axis collimating element is set to the light emission side of polarization coupling element, for carrying out slow axis compression and convergence to third laser to obtain driving source.On the one hand the slow-axis direction beam quality of pump beam can be improved in above-mentioned pump module; another aspect double pumping action source forms mutually backup and high-performance surplus; the exception of pumping source caused by single pumping source luminous point random failure or failure are avoided, so as to meet high reliability requirement.

Description

Pump module and solid state laser with it

Technical field

The utility model relates to pump and solid state laser technical field, in particular to a kind of pump module and tool There is its solid state laser.

Background technique

Existing polarization coupling technology is commonly applied in fiber coupled laser diode module, needs to convert using light beam Module (BTS) is rotated by 90 ° light beam slow-axis direction, reduces the light beam parameters product (BPP) of slow-axis direction, then to slow axis side To being collimated, polarization coupling is just carried out later.

Above scheme due to first use slow axis collimation lens (SAC) light beam slow-axis direction is collimated, then using polarization Light combination mirror group (PBC) carries out polarization coupling, so as to realize the light loss of less slow-axis direction and close beam transfer efficiency；So And this technical solution is needed using BTS system, and can only use the less laser bar item of points that shines (such as 19 shine 1cm bars of item of point), and (be generally made of FAC/BTS/SAC/PBC, wherein FAC is fast axis collimation since optical element is more Lens), to need biggish space, therefore general mostly applied in fiber coupling module；Be difficult to volume requirement more Strictly, it needs to use in the small-sized passively Q-switch solid-state laser module of high reliability.

Existing passively Q-switch solid-state laser scheme generally uses fiber coupling module as pumping source, or using single A laser bar item, which goes out light and couples directly to crystal, to be pumped.

Passively Q-switch solid-state laser using fiber coupling module as pumping source, due to fiber coupling module and crystal Module (including optics, crystal, hysteroscope etc.) separates, therefore generally requires the two block combiners and be just able to achieve work together, Overall structure is excessively complicated and huge, needs integrated application, the application stringent to volume requirement (such as vehicle-mounted to swash some Optical radar) it is difficult to be applicable in.

And light is gone out using single laser bar item and couples directly to the passive solid state laser that laser crystal carries out end pumping, Since the light beam of laser bar item is longer in slow-axis direction, cause out light have biggish asymmetry；Further, since single laser Certain luminous point failures of bar item, can cause the uneven of pump beam, so as to cause the uneven of Solid State Laser output.

Utility model content

It is existing to solve the main purpose of the utility model is to provide a kind of pump module and with its solid state laser There is the problem of laser in technology is bulky and structure is complicated.

To achieve the goals above, one aspect according to the present utility model, provides pump module, comprising: pumping source, Pumping source is two and is arranged side by side, for providing first laser and second laser；Fast axis collimation element, is set to pumping source Light emission side, for carrying out fast axis collimation to first laser and second laser；Polarization coupling element is set to fast axis collimation element Light emission side, for being mutually perpendicular to the polarization direction of the first laser after fast axis collimation and second laser and close beam to obtain Third laser；Slow axis collimating element is set to the light emission side of polarization coupling element, for third laser carry out slow axis compression and Convergence is to obtain driving source.

Further, polarization coupling element includes: half-wave plate, is set to the light emission side of fast axis collimation element, for fast The polarization direction of first laser after axis collimation carries out 90 ° of rotations；Polarization coupling microscope group is set to the light emission side of half-wave plate, uses Third laser is obtained in the second laser after postrotational first laser and fast axis collimation is carried out conjunction beam.

Further, two pumping sources are respectively to provide the first pumping source of first laser and provide the of second laser Two pumping sources, polarization coupling microscope group include: the first lens section, positioned at the light emission side of the first pumping source and opposite with the first pumping source Setting；Second lens section, positioned at the second pumping source light emission side and be oppositely arranged with the second pumping source, the first lens section be used for will First laser all reflexes at the position of the second lens section, and the second lens section is for all reflecting first laser and all transmiting Second laser.

Further, the orientation of the first pumping source and the second pumping source is first direction, in a first direction, first Vertical range between two opposite end faces of pumping source is L₁, vertical range between two opposite ends of the first lens section For H₁, the vertical range between two opposite end faces of the second pumping source is L₂, between two opposite ends of the second lens section Vertical range is H₂, L₁< H₁, L₂< H₂；L₁Midpoint be A₁, H₁Midpoint be B₁, L₂Midpoint be A₂, H₂Midpoint be B₂, A₁ With B₁Line perpendicular to first direction.

Further, pumping source is arranged in series.

Further, pumping source is laser bar item.

Further, fast axis collimation element is two and is arranged correspondingly with the light emission side of pumping source.

Further, fast axis collimation element and slow axis collimating element are independently selected from cylindrical mirror, spherical mirror and aspherical mirror Any one of.

Another aspect according to the present utility model provides a kind of solid state laser, comprising: above-mentioned pump module, pump Pu module is used to generate the driving source for realizing end pumping；Crystal module is set to going out for slow axis collimating element in pump module Light side, for receiving driving source and generating laser.

Further, crystal module includes gain media crystal, saturated absorption crystal resonant cavity, and resonant cavity is set to slowly The light emission side of axis collimating element, gain media crystal and saturated absorption crystal are set in resonant cavity；Alternatively, crystal module includes Gain media crystal and saturated absorption crystal, gain media crystal and saturated absorption Crystallization composite crystal, composite crystal are set It is placed in the light emission side of slow axis collimating element, and on the light direction of slow axis collimating element, two opposite end faces of composite crystal Form resonant cavity.

Using the technical solution of the utility model, a kind of pump module is provided, after taking two pumping sources to be arranged side by side It carries out polarization coupling and obtains the pump light source of single-spot；Under conditions of double pumping action source, polarization coupling element be can be realized to double On the one hand the slow-axis direction beam quality of pump beam, another aspect double pumping action can be improved in the overlapping of pumping source output beam Source forms mutually backup and high-performance surplus, avoids the exception of pumping source caused by single pumping source luminous point random failure or loses Effect, so as to meet high reliability requirement.Further, the utility model can by improve PBC structure size with And designed using the specific configuration of pumping source and PBC, compensate for the luminous flux damage of the polarization coupling due to caused by slow axis divergence It loses, so as to save light beam conversion module (BTS) in the prior art；Due to do not use BTS, not can be used have compared with The pumping source of multiple luminous point realizes high-peak power application demand.

Detailed description of the invention

The Figure of description for constituting a part of the utility model is used to provide a further understanding of the present invention, this The illustrative embodiments and their description of utility model do not constitute the improper limit to the utility model for explaining the utility model It is fixed.In the accompanying drawings:

Fig. 1 shows a kind of connection relationship diagram of solid state laser provided by the application embodiment；

Fig. 2 shows between pumping source single in a kind of solid state laser provided by the prior art and polarization coupling microscope group Positional relationship and light path schematic diagram；

Fig. 3 show in the solid state laser provided by the application embodiment single pumping source and polarization coupling microscope group it Between positional relationship and light path schematic diagram.

Wherein, the above drawings include the following reference numerals:

1 ', pumping source；4 ', polarization coupling microscope group；1, pumping source；11, the first pumping source；12, the second pumping source；2, fast axle Collimating element；3, half-wave plate；4, polarization coupling microscope group；41, the first lens section；42, the second lens section；5, slow axis collimating element； 6, high reflective mirror piece；7, gain media crystal；8, saturated absorption crystal；9, partially reflecting mirror piece.

Specific embodiment

It should be noted that in the absence of conflict, the feature in the embodiments of the present invention and embodiment can To be combined with each other.The utility model will be described in detail below with reference to the accompanying drawings and embodiments.

In order to make those skilled in the art better understand the scheme of the utility model, below in conjunction with the utility model reality The attached drawing in example is applied, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that described Embodiment is only the embodiment of the utility model a part, instead of all the embodiments.Based on the reality in the utility model Example is applied, every other embodiment obtained by those of ordinary skill in the art without making creative efforts is all answered When the range for belonging to the utility model protection.

It should be noted that the specification and claims of the utility model and term " first " in above-mentioned attached drawing, " second " etc. is to be used to distinguish similar objects, without being used to describe a particular order or precedence order.It should be understood that in this way The data used are interchangeable under appropriate circumstances, so as to the embodiments of the present invention described herein.In addition, term " packet Include " and " having " and their any deformation, it is intended that cover it is non-exclusive include, for example, containing series of steps Or the process, method, system, product or equipment of unit those of are not necessarily limited to be clearly listed step or unit, but can wrap Include other step or units being not clearly listed or intrinsic for these process, methods, product or equipment.

As described in background technique, laser in the prior art is bulky and structure is complicated.This is practical new Type is studied regarding to the issue above, proposes a kind of solid state laser, as shown in Figure 1, comprising: pumping source 1, pumping source 1 are Two and be arranged side by side, for providing first laser and second laser；Fast axis collimation element 2, be set to pumping source 1 goes out light Side, for carrying out fast axis collimation to first laser and second laser；Polarization coupling element is set to going out for fast axis collimation element 2 Light side, for being mutually perpendicular to the polarization direction of the first laser after fast axis collimation and second laser and close beam to obtain the Three laser；Slow axis collimating element 5 is set to the light emission side of polarization coupling element, for third laser carry out slow axis compression and Convergence is to obtain driving source.

The pump of single-spot is obtained due to carrying out polarization coupling after taking two pumping sources to be arranged side by side in above-mentioned pump module Pu light source；Under conditions of double pumping action source, polarization coupling element can be realized the overlapping to double pumping action source output beam, on the one hand The slow-axis direction beam quality of pump beam can be improved, another aspect double pumping action source forms mutually backup and high-performance surplus, The exception of pumping source caused by single pumping source luminous point random failure or failure are avoided, is used so as to meet high reliability It is required that.Further, the utility model can by improve polarization coupling element in polarization coupling microscope group (PBC) structure size with And designed using the specific configuration of pumping source and PBC, compensate for the luminous flux damage of the polarization coupling due to caused by slow axis divergence It loses, so as to save light beam conversion module (BTS) in the prior art；Due to do not use BTS, not can be used have compared with The pumping source of multiple luminous point realizes high-peak power application demand.

In a preferred embodiment, as shown in Figure 1, the above-mentioned polarization coupling element of the utility model includes half-wave Piece 3 and polarization coupling microscope group 4, half-wave plate 3 are set to the light emission side of fast axis collimation element 2, for first after fast axis collimation The polarization direction of laser carries out 90 ° of rotations；Polarization coupling microscope group 4 is set to the light emission side of half-wave plate 3, for by postrotational the Second laser after one laser and fast axis collimation carries out conjunction beam and obtains third laser.

The second of above-mentioned two pumping source respectively the first pumping source 11 of offer first laser and offer second laser Pumping source 12, it is preferable that above-mentioned polarization coupling microscope group 4 includes the first lens section 41 and the second lens section 42, the first lens section 41 Positioned at the first pumping source 11 light emission side and be oppositely arranged with the first pumping source 11, for first laser all to be reflexed to second At the position of lens section 42；Second lens section 42 is located at the light emission side of the second pumping source 12 and sets relatively with the second pumping source 12 It sets, for all reflecting first laser and all transmiting second laser, as shown in Figure 3.

The first lens section 41 and the second lens section 42 that above-mentioned polarization coupling microscope group 4 includes are the crucial skill of the utility model Art funtion part, the structural and optical properties of the other parts of polarization coupling microscope group 4 can refer to existing structure progress adaptability and set Meter, in the case where guaranteeing that technical solutions of the utility model and technical purpose can be realized, meet corresponding reflection or transmission or Other correlated conditions.

In above-mentioned preferred embodiment, with the orientation of above-mentioned first pumping source 11 and above-mentioned second pumping source 12 For first direction, the design of the specific configuration of two pumping sources and PBC can be with are as follows: as shown in figure 3, on above-mentioned first direction, the Vertical range between two opposite end faces of one pumping source 11 is L₁, hanging down between two opposite ends of the first lens section 41 Straight distance is H₁, the vertical range between two opposite end faces of the second pumping source 12 is L₂, opposite two of the second lens section 42 Vertical range between end is H₂, L₁< H₁, L₂< H₂；L₁Midpoint be A₁, H₁Midpoint be B₁, L₂Midpoint be A₂, H₂'s Midpoint is B₂, A₁With B₁Line perpendicular to first direction.At this point, the both ends PBC there are surplus be respectively (H₁-L₁)/2, it is above The symmetrical arrangement and surplus design of two pumping sources and PBC, although so that the light beam light path difference of two pumping sources, hair Scattered angle will not change, and the optical path being emitted from PBC can overlap, so that the hot spot of output does not misplace.

In the utility model embodiment, and indefinite stringent limitation L₁With L₂Relationship, for convenience design and production, make The technical purpose and technical effect of the utility model more preferably, can make L₁=L₂, H₁=H₂；Certainly, it is wanted in certain pairs of technical effects It asks in not stringent application scenes, L₁≠L₂, H₁≠H₂Also it is allowed.

It is complete generally for realization light beam due to generalling use single pumping source (such as a fullbar) in the prior art Portion enters device, needs the size of 4 ' of polarization coupling microscope group and the size of 1 ' of the pumping source completely corresponding, and shown in Fig. 2 single Pumping source, so that the light beam after outgoing misplaces, is specifically shown in the arrow of emergent light shown in Fig. 2 since size does not correspond to.And The utility model is using double pumping action source, as shown in figure 3, being made by the structure size for designing polarization coupling microscope group 4 Its both ends compared to pumping source 1 there are surplus, specifically: polarization coupling microscope group part corresponding with double pumping action source one respectively, It is respectively kept with surplus up and down, and the center of double pump source part corresponding with polarization coupling microscope group respectively is aligned setting, and light beam The full-shape of slow axis divergence is generally 10 ° or so, and there are the designs of surplus so as to not use light beam conversion module (BTS) In the case where, all light beams can still entered and carries out conjunction beam in PBC, and the hot spot dislocation-free of PBC output can be made.

In the above-mentioned pump module of the utility model, pumping source 1 is that can use laser bar item.Preferably, two pumps It is arranged in series between Pu source 1.The cathode of i.e. one pumping source 1 connects the anode of another pumping source 1, and on two pumping sources 1 Not connected positive electrode and negative electrode connect to power supply respectively.Two concatenated pumping sources 1 only need lesser driving current It realizes biggish light power, greatly reduces the requirement to power supply, and can also heat load in reduction system.

Also, it is right using BTS (light beam conversion module) due to needing in traditional fiber coupled laser diode module Light beam slow-axis direction is rotated by 90 °, and is reduced the light beam parameters product (BPP) of slow-axis direction, is then collimated to slow-axis direction, Just carry out polarization coupling later, and this technical solution is needed using BTS system, and due to each luminous point of bar item need with Each unit in BTS corresponds, therefore bar item/single tube chip with less luminous point can only be used (such as common There are 19 luminous points).And the above-mentioned pump module of the utility model is used, since BTS can not be used, to overcome tradition Polarization coupling scheme can only use less luminous point bar the shortcomings that, the luminous point of pumping source 1 can be made not by structure itself Limitation, make polarization coupling technology can be applied to it is some need high-peak power, quasi-continuous (QCW) work have it is more shine In bar laser of point.

In the above-mentioned pump module of the utility model, fast axis collimation element 2 can be for positioned at the light out of two pumping sources 1 One of side can also be arranged correspondingly for two and with the light emission side of pumping source 1, as shown in Figure 1.Above-mentioned fast axis collimation Element 2 and slow axis collimating element 5 are independently selected from any one of cylindrical mirror, spherical mirror and aspherical mirror.

The above-mentioned pump module of the utility model specifically can be used for generating the driving source for realizing end pumping.

Another aspect according to the present utility model additionally provides a kind of solid state laser, as shown in Figure 1, including above-mentioned Pump module and crystal module, pump module are used to generate the driving source for realizing end pumping, and crystal module is set to pumping The light emission side of slow axis collimating element 5 in module, for receiving driving source and generating laser.In above-mentioned solid state laser, pass through PBC is carried out closing beam and then be converged using a slow axis collimating element 5 to slow-axis direction to the light beam of two pumping sources, So that light beam convergence is entered crystal module, realizes efficient pumping.

The above-mentioned solid state laser of the utility model can be passive Q-adjusted end-face pump solid laser.Due to existing Passive Q-adjusted end-face pump solid laser scheme generally uses fiber coupling module as pumping source, or uses single bar of item Light couples directly to crystal and is pumped out, to easily lead to the bulky and non-uniform problem of light out.And this is practical new In the above-mentioned pump module of type use improved polarization coupling technology, solve conventional polarization close beam scheme can only use it is less Bar item of luminous point needs to lead to the complicated huge disadvantage of optical system using BTS, so that improved polarization coupling scheme body Product is compact, luminous flux loss is small, can be applied in the small-sized passively Q-switch solid-state laser stringent to volume and efficiency requirements.

It, can be using PBC to without slow-axis direction also, in the above-mentioned dynamic Q-switch solid laser of the utility model The light beam of collimation directly closes beam, by improving the structure size of PBC and being designed using the specific configuration of double pumping action source and PBC, Compensate for the luminous flux loss of the polarization coupling due to caused by slow axis divergence；Due to not using BTS, can be used has The chip of more luminous point realizes high-peak power application demand.

Meanwhile it taking two bars of items to be arranged side by side in this programme and carrying out polarization coupling realization (also to be further arranged in series) The pump light source of single-spot；Under conditions of double pump source, PBC may be implemented on the one hand may be used to the overlapping of double pumping action source beam To improve the slow-axis direction beam quality of pump beam, another aspect double pumping action source forms mutually backup and high-performance surplus, keeps away Exempt from pumping exception or failure caused by single bar luminous point random failure, it is direct-coupled passive using single bar of item to solve The problem of Q-switch solid laser light beam symmetry difference and poor reliability, meet high reliability requirement.

The driving source for end pumping that pump module generates, which can be incident in the left and right sides end face of crystal module, to be leaned on One end of nearly driving source, specific to realize the solid state laser of end pumping:

In a preferred embodiment, above-mentioned crystal module includes gain media crystal 7,8 and of saturated absorption crystal Resonant cavity, resonant cavity are set to the light emission side of slow axis collimating element 5, and gain media crystal 7 and saturated absorption crystal 8 are set to humorous In vibration chamber.Those skilled in the art can be according to the prior art to the type of above-mentioned gain media crystal 7, saturated absorption crystal 8 Rational choice is carried out, details are not described herein.

In another preferred embodiment, above-mentioned crystal module includes gain media crystal 7 and saturated absorption crystal 8, gain media crystal 7 and saturated absorption crystal 8 form composite crystal, and composite crystal is set to the light out of slow axis collimating element 5 Side, and on the light direction of slow axis collimating element 5, two opposite end faces of above-mentioned composite crystal form resonant cavity.At this point, sharp Resonant cavity is formed with the structure of crystal itself, it is not necessary that resonator mirror is still further arranged, keeps the structure of laser more simple, tight It gathers.

The resonant cavity of the utility model can be two independent hysteroscope compositions (high reflective mirror piece 6 and partially reflecting mirror piece 9), In the case where can be realized similar purpose, high reflective mirror piece 6 and partially reflecting mirror piece 9 can also be by two end face shapes of crystal At as long as the two end faces meet the condition of reflectivity.

The above-mentioned pump module of the utility model is further illustrated below in conjunction with embodiment and with its Solid State Laser Device.

Embodiment 1

The present embodiment uses solid state laser as shown in Figure 1, and scheme specifically includes that

As two semiconductor laser bars in double pumping action source 1, fast axis collimation element 2 be two fast axis collimation lens, Half-wave plate 3, polarization coupling microscope group 4, slow axis collimating element 5 be cylindrical mirror, gain media crystal 7, saturated absorption crystal 8 and by The resonator mirror that high reflective mirror piece 6 and partially reflecting mirror piece 9 form.Wherein, two bars of items are placed side by side, saturating by fast axis collimation respectively The fast axis collimation of mirror progress light beam；Half-wave plate is placed on one of them bar front end, realizes to the light beam polarization direction of this bar of item 90 ° of rotation；Light beam of the degree of polarization by 90 degree of rotations and the light beam of another bar of item pass through polarization coupling microscope group, synthesize same One light beam；Light beam after synthesis be incident on after cylindrical mirror carries out the compression convergence of slow-axis direction gain media crystal end-face into Row pumping effect.

Above-mentioned two bar of item is placed side by side, and two bars of items are to be connected in series in electrical connection.Two concatenated bar of item phases Single bar of item more longer than one or two bar items in parallel, on the one hand need smaller driving current may be implemented biggish Light power, on the other hand can heat load in reduction system.

Also, the overlapping to the two bars light beams as double pumping action source may be implemented in above-mentioned polarization coupling microscope group (PBC), On the one hand the slow-axis direction beam quality of pump beam can be improved, another aspect double pumping action source forms mutually backup and high-performance Surplus avoids pumping caused by single bar luminous point random failure abnormal or failure, can satisfy high reliability requirement.

It can be seen from the above description that the above embodiments of the utility model achieve the following technical effects:

1, single-spot is obtained due to carrying out polarization coupling after taking two pumping sources to be arranged side by side in above-mentioned pump module Pump light source；Under conditions of double pumping action source, polarization coupling element can be realized the overlapping to double pumping action source output beam, a side The slow-axis direction beam quality of pump beam can be improved in face, and another aspect double pumping action source is formed more than mutually backup and high-performance Amount avoids the exception of pumping source caused by single pumping source luminous point random failure or failure, so as to meet high reliability Requirement；

2, by improving polarization coupling microscope group (PBC) structure size in slow axis collimating element and using pumping source and PBC Specific configuration design, compensate for the luminous flux loss of the polarization coupling due to caused by slow axis divergence, it is existing so as to save There is the light beam conversion module (BTS) in technology；Due to not using BTS, the pumping source with more luminous point can be used Realize high-peak power application demand；

3, since existing passively Q-switch solid-state laser scheme generally uses fiber coupling module as pumping source, or Go out light using single bar of item and couple directly to crystal to be pumped, to easily lead to, bulky and light is non-uniform out is asked Topic.And improved polarization coupling technology is used in the above-mentioned pump module of the utility model, it solves conventional polarization and closes Shu Fang Case can only use bar item of less luminous point, need to lead to the complicated huge disadvantage of optical system using BTS, so that improved Polarization coupling scheme volume compact, luminous flux loss are small, can be applied to the small-sized passive Q-adjusted end stringent to volume and efficiency requirements In pumping solid laser.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (10)

1. a kind of pump module characterized by comprising

Pumping source (1), the pumping source (1) is two and is arranged side by side, for providing first laser and second laser；

Fast axis collimation element (2), is set to the light emission side of the pumping source (1), for the first laser and described second Laser carries out fast axis collimation；

Polarization coupling element is set to the light emission side of the fast axis collimation element (2), for making described first after fast axis collimation The polarization direction of laser and the second laser is mutually perpendicular to and close beam to obtain third laser；

Slow axis collimating element (5) is set to the light emission side of the polarization coupling element, for carrying out slow axis to the third laser Compression and convergence are to obtain driving source.

2. pump module according to claim 1, which is characterized in that the polarization coupling element includes:

Half-wave plate (3) is set to the light emission side of the fast axis collimation element (2), for swashing to described first after fast axis collimation The polarization direction of light carries out 90 ° of rotations；

Polarization coupling microscope group (4), is set to the light emission side of the half-wave plate (3), for will the postrotational first laser and The second laser after fast axis collimation carries out conjunction beam and obtains the third laser.

3. pump module according to claim 2, which is characterized in that two pumping sources (1) are respectively described in offer The first pumping source (11) of first laser and the second pumping source (12) of the offer second laser, the polarization coupling microscope group (4) include:

First lens section (41) is located at the light emission side of first pumping source (11) and sets relatively with first pumping source (11) It sets；

Second lens section (42) is located at the light emission side of second pumping source (12) and sets relatively with second pumping source (12) It sets,

First lens section (41) is used to all reflex to the first laser at the position of second lens section (42), Second lens section (42) is for all reflecting the first laser and all transmiting the second laser.

4. pump module according to claim 3, which is characterized in that first pumping source (11) and second pumping The orientation in source (12) is first direction, in said first direction, two opposite end faces of first pumping source (11) Between vertical range be L₁, the vertical range between two opposite ends of first lens section (41) is H₁, described second Vertical range between two opposite end faces of pumping source (12) is L₂, two opposite ends of second lens section (42) it Between vertical range be H₂, L₁< H₁, L₂< H₂；The L₁Midpoint be A₁, the H₁Midpoint be B₁, the L₂Midpoint be A₂, the H₂Midpoint be B₂, the A₁With the B₁Line perpendicular to the first direction.

5. pump module according to claim 1, which is characterized in that the pumping source (1) is arranged in series.

6. pump module according to any one of claim 1 to 5, which is characterized in that the pumping source (1) is laser bar Item.

7. pump module according to claim 1, which is characterized in that the fast axis collimation element (2) for two and with institute The light emission side for stating pumping source (1) is arranged correspondingly.

8. pump module according to claim 1 or claim 7, which is characterized in that the fast axis collimation element (2) and the slow axis Collimating element (5) is independently selected from any one of cylindrical mirror, spherical mirror and aspherical mirror.

9. a kind of solid state laser characterized by comprising

Pump module described in any item of the claim 1 to 8, the pump module are used to generate the excitation for realizing end pumping Source；

Crystal module is set to the light emission side of slow axis collimating element (5) in the pump module, for receiving the driving source simultaneously Generate laser.

10. solid state laser according to claim 9, which is characterized in that

The crystal module includes gain media crystal (7), saturated absorption crystal (8) resonant cavity, and the resonant cavity is set to The light emission side of the slow axis collimating element (5), the gain media crystal (7) and saturated absorption crystal (8) are set to described humorous In vibration chamber；Alternatively,

The crystal module includes gain media crystal (7) and saturated absorption crystal (8), the gain media crystal (7) and institute It states saturated absorption crystal (8) and forms composite crystal, the composite crystal is set to the light emission side of the slow axis collimating element (5), And on the light direction of the slow axis collimating element (5), two opposite end faces of the composite crystal form resonant cavity.