CN109616865A

CN109616865A - A kind of mode of laser group

Info

Publication number: CN109616865A
Application number: CN201811561398.0A
Authority: CN
Inventors: 孔剑
Original assignee: Kunshan Yandi Laser Technology Co Ltd
Current assignee: Kunshan Yandi Laser Technology Co Ltd
Priority date: 2018-12-20
Filing date: 2018-12-20
Publication date: 2019-04-12

Abstract

The invention discloses a kind of mode of laser groups, including shell, pedestal is provided in shell, laser light source and laser module are provided on pedestal, laser module constitutes laser resonator, outlet opening is provided on shell, outlet opening is equipped with light passing mirror, and the laser that laser light source generates is exported by laser module from light passing mirror.By laser crystal, nonlinear crystal, outgoing mirror and/or input mirror, fixation forms laser module on the base together for invention; by the working performance for adjusting the position optimization mode of laser group of laser crystal and nonlinear crystal; thus it ensure that higher working performance while reducing the volume of mode of laser group; the configuration of the present invention is simple simultaneously is convenient for large-scale production.

Description

A kind of mode of laser group

Technical field

The present invention relates to a kind of mode of laser groups, belong to laser technology field.

Background technique

With the development of electronic technology field, laser display is as a kind of good colorfulness and brightness uniformity of possessing Technology, and so that it has been obtained further development in recent years by its higher service life and flexible screen size.It does not look over so as to check Preceding light source only has red blue dichromatism laser to possess more mature technology, and existing green semiconductor laser light resource is also far not It is able to satisfy the standard that laser television is shown.Although the technology achieves certain development, it is in mass production and business Change application above to need to be pushed further into.And the main representative of gas laser has argon ion gas laser and copper vapor laser Device, although can reach the power of hectowatt magnitude, its is bulky, structure is complicated, is not easy to large-scale production.

Summary of the invention

The present invention provides a kind of mode of laser group, solve that conventional laser equipment volume is huge, structure is complicated, is not easy to advise The problem of modelling produces.

In order to solve the above-mentioned technical problem, the technical scheme adopted by the invention is that:

A kind of mode of laser group, including shell are provided with pedestal in shell, are provided with laser light source and laser module on pedestal, swash Optical module constitutes laser resonator, and outlet opening is provided on shell, and outlet opening is equipped with light passing mirror, what laser light source generated Laser is exported by laser module from light passing mirror.

Laser module includes pedestal, and laser crystal, nonlinear crystal and outgoing mirror are provided on pedestal, along the propagation of laser Direction, laser crystal, nonlinear crystal and outgoing mirror are arranged successively.

The front surface of laser crystal is successively coated with anti-reflection film and two layers of Anti-reflective coating, and it is anti-that the front surface of outgoing mirror is successively coated with increasing Film and anti-reflection film.

Laser module includes pedestal, input mirror, laser crystal and nonlinear crystal is provided on pedestal, along the propagation of laser Direction, input mirror, laser crystal and nonlinear crystal are arranged successively.

The front surface of input mirror is successively coated with anti-reflection film and two layers of Anti-reflective coating, and the rear surface of nonlinear crystal is successively coated with increasing Anti- film and anti-reflection film.

Laser module includes pedestal, input mirror, laser crystal, nonlinear crystal and outgoing mirror is provided on pedestal, along sharp The direction of propagation of light, input mirror, laser crystal, nonlinear crystal and outgoing mirror are arranged successively.

The rear surface of input mirror is successively coated with anti-reflection film and two layers of Anti-reflective coating, and the front surface of outgoing mirror is successively coated with Anti-reflective coating And anti-reflection film.

Position line is provided on pedestal.

Pedestal is L-shaped, and laser light source is arranged on the side wall of vertical section, and laser module is arranged on the top surface of traversing section.

Advantageous effects of the invention: the present invention is by laser crystal, nonlinear crystal, outgoing mirror and/or inputs mirror Fixation forms laser module on the base together, by the position optimization mode of laser group for adjusting laser crystal and nonlinear crystal Working performance, thus ensure that higher working performance while reducing the volume of mode of laser group, while structure of the invention letter It is single, it is convenient for large-scale production.

Detailed description of the invention

Fig. 1 is the structural diagram of the present invention；

Fig. 2 is the first structure chart of laser module；

Fig. 3 is second of structure chart of laser module.

Specific embodiment

The invention will be further described below in conjunction with the accompanying drawings.Following embodiment is only used for clearly illustrating the present invention Technical solution, and not intended to limit the protection scope of the present invention.

As shown in Figure 1, a kind of mode of laser group, including shell 2, it is provided with pedestal 1 in shell 2, is provided with laser on pedestal 1 Light source 3 and laser module 4, laser module 4 constitute laser resonator, are provided with outlet opening on shell 2, outlet opening is equipped with Light passing mirror 5, the laser that laser light source 3 generates are exported by laser module 4 from light passing mirror 5.

Shell 2 is rectangular housing, and shell 2 and pedestal 1 can be integrally formed, and is also possible to pedestal 1 and passes through welding or gluing Mode be fixed in shell 2, pedestal 1 is generally set up directly on 2 bottom of chamber portion of inner housing, and pedestal 1 and shell 2 are all made of and lead Hot material is provided with position line on pedestal 1, marks best between different components for the ease of the component on setting pedestal 1 Spacing.

Laser light source 3 and laser module 4 can weld or glued mode is fixed on pedestal 1, and gluing is led using organosilicon Hot glue, epoxy resin AB glue, heat-conducting silicone grease etc. needs to carry out metalized to parts surface in advance according to welding, above-mentioned L-shaped is arranged in pedestal 1, and laser light source 3 is arranged on the side wall of vertical section, is directed at laser module 4, and laser light source 3 can be half Conductor laser, gas laser, solid state laser etc., laser module 4 are arranged on the top surface of traversing section.

Laser module 4 has following three kinds of structures:

The first structure is provided with laser crystal 7, nonlinear crystal 8 on pedestal 6 as shown in Fig. 2, laser module 4 includes pedestal 6 With outgoing mirror 9, along the direction of propagation of laser, laser crystal 7, nonlinear crystal 8 and outgoing mirror 9 are arranged successively, laser crystal 7, Nonlinear crystal 8 and outgoing mirror 9 are arranged along straight line, and incident laser sequentially passes through laser crystal 7,8 and of nonlinear crystal Outgoing mirror 9, nonlinear crystal 8 are located at beam diameter minimum, and the front surface of laser crystal 7 is successively coated with anti-reflection film (808nm) With two layers of Anti-reflective coating (internal layer 1064nm, outer layer 532nm), the front surface of outgoing mirror 9 is successively coated with Anti-reflective coating (1064nm) With anti-reflection film (532nm).

Pedestal 6 is also that Heat Conduction Material is constituted, and opens up two U-shaped grooves on pedestal 6, laser crystal 7 and nonlinear crystal 8 are set It sets in a U-shaped groove, convenient for adjusting spacing between the two, outgoing mirror 9 is arranged in another U-shaped groove, and laser is brilliant Body 7, nonlinear crystal 8 and outgoing mirror 9 are all made of glued mode and fix.

Laser crystal 7 is Nd-doped yttrium vanadate (Nd:YVO4), neodymium-doped gadolinium vanadate (Nd:GdVO4) or neodymium-doped yttrium-aluminum garnet (Nd:YAG), Nd in laser crystal 7⁺³The molecular percentage content of ion is 0.5% -3% according to different power requirements.Laser is brilliant Body 7 has higher absorption coefficient and biggish stimulated emission cross section, makes with the cooperation of nonlinear crystal 8 with high nonlinear coefficient With preferable frequency-doubling conversion efficiency can be obtained.

Nonlinear crystal 8 can use periodic polarized lithium niobate (PPLN) crystal, can adulterate one in lithium columbate crystal The magnesia of content is determined to improve the photo-damage resistance of crystal, can also adulterate other common substances.Nonlinear crystal 8 may be used also To be periodic polarized lithium tantalate (PPLT) crystal, periodic polarized near-stoichiometric lithium tantalate (PPSLT) crystal, period Property polarization potassium titanyl phosphate (PPKTP) crystal, potassium titanyl phosphate (KTP) crystal, barium metaborate (BB0) crystal, bismuth borate (BIBO) crystal or three lithium borates (LB0) crystal.

Outgoing mirror 9 can be concavees lens or plane mirror, and its primary optical axis need to be parallel with light source.

Second of structure is provided with input mirror 10, laser crystal on pedestal 6 as shown in figure 3, laser module 4 includes pedestal 6 7 and nonlinear crystal 8, along the direction of propagation of laser, inputs mirror 10, laser crystal 7 and nonlinear crystal 8 and be arranged successively, input Mirror 10, laser crystal 7 and nonlinear crystal 8 are arranged along straight line, and incident laser sequentially passes through input mirror 10, laser crystal 7 and nonlinear crystal 8, nonlinear crystal 8 be located at beam diameter minimum, input mirror 10 front surface be successively coated with anti-reflection film (808nm) and two layers of Anti-reflective coating (internal layer 1064nm, outer layer 532nm), it is anti-that the rear surface of nonlinear crystal 8 is successively coated with increasing Film (1064nm) and anti-reflection film (532nm).

As in Fig. 2, input mirror 10 can be concavees lens for pedestal 6, laser crystal 7 and nonlinear crystal 8 in Fig. 3 Or plane mirror, and its primary optical axis need to be parallel with light source.

The third structure: laser module 4 includes pedestal 6, and input mirror 10, laser crystal 7, non-linear is provided on pedestal 6 Crystal 8 and outgoing mirror 9 input mirror 10, laser crystal 7, nonlinear crystal 8 and outgoing mirror 9 and successively arrange along the direction of propagation of laser Column, input mirror 10, laser crystal 7, nonlinear crystal 8 and outgoing mirror 9 are arranged along straight line, and incident laser sequentially passes through defeated Enter mirror 10, laser crystal 7, nonlinear crystal 8 and outgoing mirror 9, nonlinear crystal 8 is located at beam diameter minimum, inputs mirror 10 Rear surface be successively coated with anti-reflection film (808nm) and two layers of Anti-reflective coating (internal layer 1064nm, outer layer 532nm), outgoing mirror 9 Front surface is successively coated with Anti-reflective coating (1064nm) and anti-reflection film (532nm).

Above-mentioned three's structure, laser light source 3 are that laser crystal 7 provides excitation, the component in laser module 4 as pumping source Resonant cavity is constituted, pump light enters intracavitary interact with laser crystal 7 and generates fundamental wave, fundamental wave and 8 phase of nonlinear crystal Interaction generates frequency multiplication light output.Laser module 4 may include input mirror 10 and outgoing mirror 9, can also only include input mirror 10/ Outgoing mirror 9, when only including input mirror 10, the plated film of 8 rear surface of nonlinear crystal is equivalent to outgoing mirror 9, when only including output When mirror 9, the plated film of 7 front surface of laser crystal is equivalent to input mirror 10.

The front surface of light passing mirror 5 is coated with 532nm anti-reflection film

Laser crystal 7, nonlinear crystal 8, outgoing mirror 9 and/or input mirror 10 are fixed on pedestal 6 together and form laser by invention Module 4, the working performance of the position optimization mode of laser group by adjusting laser crystal 7 and nonlinear crystal 8, thus swash reducing It ensure that higher working performance, while the configuration of the present invention is simple while the volume of optical mode group, be convenient for large-scale production.

The present invention is not merely adapted to the frequency multiplication process (such as second-harmonic conversion) generated for green laser, also suitable Generation for other nonlinear optical process (such as with frequency and frequency dividing) and the laser (such as blue light) of other wavelength.

The above is only a preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, without departing from the technical principles of the invention, several improvement and deformations can also be made, these improvement and deformations Also it should be regarded as protection scope of the present invention.

Claims

1. a kind of mode of laser group, it is characterised in that: including shell, pedestal is provided in shell, is provided with laser light source on pedestal And laser module, laser module constitute laser resonator, are provided with outlet opening on shell, outlet opening is equipped with light passing mirror, The laser that laser light source generates is exported by laser module from light passing mirror.

2. a kind of mode of laser group according to claim 1, it is characterised in that: laser module includes pedestal, is arranged on pedestal Have laser crystal, nonlinear crystal and outgoing mirror, along the direction of propagation of laser, laser crystal, nonlinear crystal and outgoing mirror according to Secondary arrangement.

3. a kind of mode of laser group according to claim 2, it is characterised in that: the front surface of laser crystal is successively coated with anti-reflection Film and two layers of Anti-reflective coating, the front surface of outgoing mirror are successively coated with Anti-reflective coating and anti-reflection film.

4. a kind of mode of laser group according to claim 1, it is characterised in that: laser module includes pedestal, is arranged on pedestal Have input mirror, laser crystal and nonlinear crystal, along the direction of propagation of laser, input mirror, laser crystal and nonlinear crystal according to Secondary arrangement.

5. a kind of mode of laser group according to claim 4, it is characterised in that: the front surface for inputting mirror is successively coated with anti-reflection film Anti-reflective coating and anti-reflection film are successively coated with the rear surface of two layers of Anti-reflective coating, nonlinear crystal.

6. a kind of mode of laser group according to claim 1, it is characterised in that: laser module includes pedestal, is arranged on pedestal There are input mirror, laser crystal, nonlinear crystal and outgoing mirror, along the direction of propagation of laser, inputs mirror, laser crystal, non-linear Crystal and outgoing mirror are arranged successively.

7. a kind of mode of laser group according to claim 6, it is characterised in that: the rear surface for inputting mirror is successively coated with anti-reflection film Anti-reflective coating and anti-reflection film are successively coated with the front surface of two layers of Anti-reflective coating, outgoing mirror.

8. a kind of mode of laser group according to claim 1, it is characterised in that: be provided with position line on pedestal.

9. a kind of mode of laser group according to claim 1, it is characterised in that: pedestal is L-shaped, and laser light source is arranged vertical On the side wall of section, laser module is arranged on the top surface of traversing section.