CN204012177U - Kerr lens self mode locking Yb:LSO laser - Google Patents

Abstract

The utility model provides a kind of kerr lens self mode locking Yb:LSO laser.This laser, for exporting the laser through locked mode, comprising: pumping source, for pumping laser is provided; The laser crystal being formed by Yb:LSO material, as gain media and kerr medium; The optical system being formed by a plurality of optical elements, its be arranged to can with pumping source together with laser crystal with kerr lens mode locking mechanism works; Optical system comprises the resonant cavity of the round light path that is used to form laser, and laser crystals setting is in coming and going light path; Resonant cavity have be arranged on come and go light path first end place for reflecting the first end mirror of laser; The first end mirror is semiconductor saturable absorbing mirror, for starting and stable kerr lens mode locking.The utility model adopts the auxiliary locked mode of semiconductor saturable absorbing mirror, has realized kerr lens self-starting locked mode on Yb:LSO laser crystal, and steady running for a long time and the femtosecond pulse that has obtained 54fs are exported.

Description

Kerr lens self mode locking Yb:LSO laser

Technical field

The utility model relates to a kind of laser technique field, particularly relates to a kind of kerr lens self mode locking Yb:LSO laser.

Background technology

LD (Laser Diode, laser diode) pumping all solid laser integrates the advantage of diode laser and solid state laser, and both deficiencies have been made up, make all solid state laser of LD pumping be better than lamp pump solid-state laser and diode laser itself, have the following advantages, as high in overall efficiency; Good stability; Beam quality is high, the angle of divergence is little, has high spatial coherence; Compact conformation, miniaturization; Reliability is high, the life-span is long; Easily realize single-frequency operation; Peak power is high; Wavelength coverage is wide etc., so its property indices and all having made significant headway at aspects such as realizing industrialization.

1981, U.S.'s Bell Laboratory was successfully developed collision mode-locked dyelaser, had realized femtosecond (fs, 10 ^-15s) Laser output of magnitude, the pulse duration that it is extremely short and high peak power make altra-fast fs laser technology become a large focus of laser research field.

The all solid state laser of based semiconductor pumping is low with compact conformation, cost, steady performance is with a wide range of applications in high-tech industry field, but until the nineties in 20th century, wavelength occurs at the high power InGaAs of 0.9～1.0 μ m laser diode (LD), makes to be applicable to the Yb of this wave band pumping ³⁺laser is subject to people's attention, and has started based on mixing Yb ³⁺the research boom of all solid state femto-second laser of medium.

The advantages such as all solid state femto-second laser of LD pumping is with low cost owing to having, simple and compact for structure, have become the comparatively research direction of main flow of current near-infrared 1～2 mu m waveband.And owing to adopting LD pumping to there is the advantages such as brightness is high, power is large, be conducive to the acquisition of High Power Femtosecond Laser, in fields such as national defence, industry, medical treatment and scientific researches, all there is very important purposes.At 1 mu m waveband, along with the appearance of the LD of high power, high brightness, more and more based on Yb ³⁺in the middle of the laser crystal of doping, the research that ceramic material is applied to femto-second laser, this mainly gives the credit to doping Yb ³⁺crystal or pottery have very good characteristic, for example, without the absorption of excitation state, without cross relaxation, there is not concentration quenching, there is higher quantum efficiency, very long fluorescence lifetime and very wide transmitted bandwidth.As numerous Yb ³⁺important gang in the laser medium of doping, Yb ³⁺the silicate crystal of doping has obtained in recent years everybody and has paid close attention to widely.Due to Yb ³⁺yb in the silicate crystal of doping ³⁺ground state level Stark splitting larger, make stimulated radiation produce laser process and belong to quasi-fore-lever structure, reduced lasing pumping threshold, and Yb ³⁺the silicate crystal of doping all has wider emission spectrum, can support in theory the ultrashort pulse that is less than 100fs to produce.

At present, most of Yb ³⁺the all solid state laser of doping all adopts SESAM (semiconductor saturable absorber mirror, semiconductor saturable absorbing mirror) the passive mode locking mode starting, yet be limited to the factor of the bandwidth of SESAM own, make the pulse duration that produces femto-second laser pulse mostly more than 100fs.And 1 mu m waveband is less than the femtosecond pulse of the pulse duration of 100fs and has very important application at aspects such as optical frequency standard and atom and molecule Transient Dynamics, a lot of field.Kerr lens mode locking method can directly produce sub-100fs pulse output, so-called kerr lens mode locking refers in resonant cavity without any need for locked mode element, only utilize the Kerr effect of laser crystal gain media itself as saturable absorber, realize self mode locking running under certain condition.Although kerr lens mode locking can be realized the mode locking pulse output of the sub-100fs of wide spectrum, but cannot self-starting be its fatal shortcoming, and due to easily affected by environment, kerr lens mode locking generally can only maintain several hours, needs to give certain external disturbance and just can re-establish locked mode after locked mode has fallen.

Therefore, how to set up a kind of sub-100fsYb of kerr lens mode locking that can self-starting ³⁺the all solid state laser of doping becomes the problem of needing at present solution badly.

Utility model content

The purpose of this utility model aims to provide a kind of kerr lens self mode locking Yb:LSO laser, and this laser has been realized the kerr lens mode locking of self-starting, and the pulse duration of the femtosecond pulse of the direct output of outgoing mirror can reach 61fs.

In order to address the above problem, according to an aspect of the present utility model, provide a kind of kerr lens self mode locking Yb:LSO laser, for exporting the laser through locked mode, comprising: pumping source, for pumping laser is provided; The laser crystal being formed by Yb:LSO material, simultaneously as gain media and kerr medium; The optical system being formed by a plurality of optical elements, its be arranged to can with pumping source together with laser crystal with kerr lens mode locking mechanism works; Wherein, optical system comprises the resonant cavity of the round light path that is used to form laser, and laser crystals setting is in coming and going light path; Resonant cavity have be arranged on come and go light path first end place for reflecting the first end mirror of laser; Wherein, the first end mirror is semiconductor saturable absorbing mirror, for starting and stablizing described kerr lens mode locking.

Further, resonant cavity has second end mirror as outgoing mirror at the second end place that is arranged on described round light path, for part reflection and part transmission laser.

Further, resonant cavity also has along coming and going light path and is arranged on the first concave mirror, the second concave mirror and the 3rd concave mirror between the first end mirror and the second end mirror; And be arranged so that the pumping laser that pumping source sends incides on laser crystal after the first concave mirror, the laser that vibration produces first incides on the second concave mirror, and reflected successively by the second concave mirror and the 3rd concave mirror, then incide on the first end mirror; The first end mirror returns to the former road of laser, arrives the first concave mirror, and is reflected successively by the first concave mirror, finally incides on the second end mirror, sees through the second end mirror output through the laser of locked mode.

Further, resonant cavity also has in coming and going light path the GTI mirror for dispersion compensation, its be arranged to by from the laser reflection of in the first concave mirror and the second end mirror to another; Preferably, the anomalous dispersion value that GTI mirror provides is-800fs ².

Further, in laser crystal, the atom doped concentration of Yb is 5%～10%; Preferably, the atom doped concentration of Yb is 5%.

Further, optical system also comprises optical coupled focusing unit, for the pumping laser from pumping source is focused on to laser crystal.

Further, the radius of curvature of the first concave mirror and the second concave mirror is 75mm; Alternatively, the radius of curvature of the 3rd concave mirror is 300mm.

Further, laser crystal is square shape; Preferably, laser crystal is of a size of 3mm * 3mm * 3mm.

Further, the modulation depth of the first end mirror is 0.4%～1.6%,, saturation flux is 60～120 μ J/cm2, relaxation time≤500fs, centre wavelength is 1040～1064nm; Preferably, the modulation depth of the first end mirror is 0.4%, and saturation flux is 90 μ J/cm ², the relaxation time is 500fs, centre wavelength is 1064nm.

Further, the second end mirror is towards the deielectric-coating that to be coated with the transmitance of gain laser be 0.4% of the one side in resonant cavity; The the second end mirror dorsad one side in resonant cavity is coated with the anti-reflection deielectric-coating that promotes gain laser transmission.

Further, the first concave mirror is coated with towards the one side of pumping source the anti-reflection deielectric-coating that promotes pumping laser transmission; The the first concave mirror dorsad one side of pumping source is coated with the anti-reflection deielectric-coating of promotion pumping laser transmission and the increasing inverse medium film that promotes gain laser reflection successively.

Further, the second concave mirror and the 3rd concave mirror are all coated with towards the one side of resonant cavity the increasing inverse medium film that promotes gain laser reflection.

Further, on laser crystal towards the side of the first concave mirror with on the side of the second concave mirror, be coated with successively the anti-reflection deielectric-coating that promotes pumping laser transmission and the increasing inverse medium film that promotes gain laser reflection.

Further, pumping source is the semiconductor laser of optical coupled output.

Further, the first end mirror and the second concave mirror are arranged on adjustable optical translation platform.

Application the technical solution of the utility model, utility model people only utilizes the Kerr effect of gain media Yb:LSO laser crystal itself, by adopting the first end mirror, it is the auxiliary locked mode of semiconductor saturable absorbing mirror (SESAM), in the situation that in resonant cavity without any need for other locked mode element, not only can obtain realizing the Yb:LSO laser of the kerr lens mode locking of self-starting, and adopt laser of the present utility model can obtain the femtosecond pulse output that pulse duration is 54fs, the maximum average power of directly exporting through outgoing mirror is up to 25mW, repetition rate is 113MHz, centre wavelength is 1052nm, spectrum halfwidth is 22.5nm.The utility model is than existing mode-locked laser, realize first kerr lens self-starting locked mode, more surprisingly, made pulse duration have obvious shortening, and than the laser of other kerr lens mode locking, self-starting and steady running have for a long time been realized.

According to the detailed description to the utility model specific embodiment by reference to the accompanying drawings below, those skilled in the art will understand above-mentioned and other objects, advantage and feature of the present utility model more.

Accompanying drawing explanation

Hereinafter in exemplary and nonrestrictive mode, describe specific embodiments more of the present utility model in detail with reference to the accompanying drawings.In accompanying drawing, identical Reference numeral has indicated same or similar parts or part.It should be appreciated by those skilled in the art that these accompanying drawings may not draw in proportion.In accompanying drawing:

Fig. 1 is according to the light channel structure schematic diagram of the kerr lens self mode-locked laser of a kind of exemplary embodiments of the utility model;

The pulse width signal of Fig. 2 for recording with intensity autocorrelation function analyzer according to the kerr lens self mode-locked laser of a kind of embodiment of the utility model;

The output spectrum signal of Fig. 3 for recording with spectrometer according to the kerr lens self mode-locked laser of a kind of embodiment of the utility model;

Fig. 4 a-4b is the spectrogram that records with spectrum analyzer according to the kerr lens self mode-locked laser of a kind of embodiment of the utility model, and wherein, Fig. 4 a is the frequency spectrum of resolution while being 1kHz, and Fig. 4 b is the frequency spectrum of resolution while being 100kHz; And

Fig. 5 for according to a kind of embodiment of the utility model SESAM is changed to a level crossing time the stable pure kerr lens self mode locking that obtains intensity autocorrelation signal.

Embodiment

In order to solve the problem that kerr lens mode locking of the prior art cannot self-starting when the mode locking pulse output that realizes the sub-100fs of wide spectrum, and this kerr lens mode locking is rear because the short and locked mode of holding time affected by environment has fallen also needs to give external disturbance and just can re-establish the problems such as locked mode, the utility model proposes a kind of kerr lens self mode locking Yb:LSO (Yb:Lu ₂siO ₅mix ytterbium silicic acid lutetium) laser.This Yb:LSO laser has not only been realized the kerr lens mode locking of self-starting first, and more allow people surprised be, the femtosecond pulse output that also to have obtained pulse duration be 54fs, significantly shortened pulse duration, and than the laser of existing kerr lens mode locking, self-starting and long-time steady running have been realized.

As shown in Figure 1, in an exemplary embodiments of the present utility model, laser comprises pumping source 10, the laser crystal 20 being formed by Yb:LSO material and the optical system consisting of a plurality of optical elements.Wherein, pumping source 10 is for providing pumping laser.Laser crystal 20, simultaneously as gain media and kerr medium, forms kerr lens mode locking.The optical system being formed by a plurality of optical elements, its be arranged to can with pumping source 10 together with laser crystal 20 with kerr lens mode locking mechanism works.Wherein, optical system comprises the resonant cavity of the round light path that is used to form laser, and laser crystal 20 is arranged on and comes and goes in light path; Resonant cavity have be arranged on come and go light path first end place for reflecting the first end mirror 30 of laser.Wherein, the first end mirror 30 is semiconductor saturable absorbing mirror, for starting and stable kerr lens mode locking.

In a preferred embodiment of the present utility model, resonant cavity also has the second end mirror 40 as outgoing mirror that is arranged on the second end place that comes and goes light path.Wherein, the second end mirror 40 is level crossing, and except having, output is a small amount of to be seen through the effect of light for it, oscillating laser ceaselessly can also be reflected back to resonant cavity, for part reflection and part transmission laser.

Preferably, the second end mirror 40 is coated with gain laser towards the one side in resonant cavity, the deielectric-coating that the transmitance of the gain laser that wavelength is 1020～1100nm is 0.4%.The the second end mirror 40 dorsad one side in resonant cavity is coated with the anti-reflection deielectric-coating that promotes gain laser transmission.In prior art, general employing transmitance is 5% or 2% deielectric-coating, and the utility model creatively adopts transmitance, it is 0.4% deielectric-coating, main purpose is the transmitance that reduces oscillating laser, oscillating laser can be vibrated by multiple reflections in resonant cavity, and then the power density in enhancing resonant cavity, the kerr-lens effect that improves crystal, is conducive to realize kerr lens mode locking.The the second end mirror 40 dorsad one side in resonant cavity is coated with the anti-reflection deielectric-coating that promotes gain laser transmission, mainly to consider because front surface is lower to the transmitance of oscillating laser, the reflection of rear surface is larger on power output impact, contributes to reduce the loss of 40 pairs of Output of lasers of the second end mirror.

As shown in Figure 1, in a specific embodiment of the present utility model, resonant cavity also has the round light path in edge and is arranged on the first concave mirror 50, the second concave mirror 60 and the 3rd concave mirror 70 between the first end mirror 30 and the second end mirror 40.Wherein, the first concave mirror 50 and second concave mirror 60 are relatively arranged on respectively the both sides of Yb:LSO laser crystal 20.Preferably, the distance between the first concave mirror 50 and the second concave mirror 60 is 78mm.Two concave mirrors are arranged so that the pumping laser that pumping source 10 sends incides on laser crystal 20 after the first concave mirror 50, the laser that vibration produces first incides on the second concave mirror 60, and reflected successively by the second concave mirror 60 and the 3rd concave mirror 70, then incide on the first end mirror 30; The first end mirror 30 returns to the former road of laser, arrives the first concave mirror 50, and is reflected successively by the first concave mirror 50, finally incides on the second end mirror 40, sees through the second end mirror 40 outputs through the laser of locked mode.

In an exemplary embodiments of the present utility model, resonant cavity also has in coming and going light path the GTI mirror 80 for dispersion compensation, its be arranged to by from the laser reflection of in the first concave mirror 50 and the second end mirror 40 to another.GTI mirror 80 is for normal dispersion that in compensated cavity, air, laser crystal 20 and SESAM30 introduce.If there is no the compensation of GTI mirror 80, can make to exist in resonant cavity clean positive dispersion, thereby cannot realize preferably, even can not realize kerr lens mode locking.Than traditional prism, the utility model adopts GTI mirror 80 to carry out dispersion compensation, and it is convenient and simple and occupation of land space is little, can make the structure of whole oscillator more compact.

Preferably, the anomalous dispersion value that GTI mirror 80 provides is-800fs ²～-1200fs ².The scope of this anomalous dispersion value is mainly to determine according to the positive dispersion amount in chamber.If anomalous dispersion value is higher than-1200fs ², there will be the too much problem of negative dispersion in chamber, cannot realize short pulse output; On the contrary, if anomalous dispersion value lower than-800fs ², there will be in chamber is clean positive dispersion, easily causes meeting kerr lens mode locking condition.Most preferably, the anomalous dispersion value that GTI mirror 80 provides is-800fs ², now can reach best compensation effect.

As shown in Figure 1, particularly, the pumping laser of the 976nm sending from pumping source 10 incides on laser crystal 20 after the first concave mirror 50, the 1.05 μ m gain lasers that vibration produces incide rear on the second concave mirror 60 and are reflected successively by the second concave mirror 60 and the 3rd concave mirror 70, and inciding the first end mirror 30 is on semiconductor saturable absorbing mirror (SESAM).SESAM30 returns to the former road of laser, arrives the first concave mirror 50, and is reflected successively by the first concave mirror 50 and GTI mirror 60, finally incides outgoing mirror 80.The pulse duration that sees through the femtosecond pulse of outgoing mirror 80 direct outputs is 54fs, and maximum average power is 25mW, and repetition rate is 113MHz, and centre wavelength is 1052nm, and spectrum halfwidth is 22.5nm.The utility model utilizes the Kerr effect of laser crystal 20 and the auxiliary locked mode of SESAM30 first, has realized the stable kerr lens mode locking of self-starting, and this 54fs pulse duration is also Yb ³⁺the short pulse that the silicic acid crystal of doping obtains.

The optical system adopting in the utility model also comprises optical coupled focusing unit, for the pumping laser from pumping source 10 is focused on to laser crystal.In a preferred embodiment of the present utility model, pumping source 10 is the semiconductor laser of optical coupled output, the pumping laser that is 976nm for output wavelength.The peak power output of pumping source 10 is 25W, and the core diameter of optical fiber is 100 μ m, and numerical aperture is 0.55.The pumping laser of optical fiber output arrives Yb:LSO laser crystal 20 center after the optical coupled focusing unit focusing of a 1:0.8.Preferably laser crystal 20 is placed perpendicular to pumping laser direction.

The utility model is not particularly limited the shape of Yb:LSO laser crystal 20, as long as can meet enough gain lengths (3mm).As being cylinder, cuboid, square etc.In a preferred embodiment, laser crystal 20 is square.Further preferably, laser crystal 20 is of a size of 3mm * 3mm * 3mm.

In a preferred embodiment of the present utility model, in Yb:LSO laser crystal 20, the atom doped concentration of Yb is 5%～10%.Consider laser gain and re-absorbed problem, the utility model adopts the atom doped concentration of the Yb of above-mentioned number range, and the Yb:LSO laser crystal 20 now obtaining has enough laser gains and less heavily absorption simultaneously.If doping content higher than 10%, can cause the re-absorbed problem of oscillating laser; On the contrary, if doping content lower than 5%, can cause gain not.Therefore,, through considering, it is 5%～10% that the utility model is controlled the doping content of Yb atom.Most preferably, in Yb:LSO laser crystal 20, the atom doped concentration of Yb is 5%.

For the loss that improves pumping efficiency and reduce resonant cavity, preferably, on Yb:LSO laser crystal 20, towards the side of the first concave mirror 30, promote the anti-reflection deielectric-coating (T>99.8%) of pumping laser transmission and promote the increasing inverse medium film that gain laser reflects with being coated with successively on the side of the second concave mirror 40.The wavelength of general pumping laser is 970～980nm, and the wavelength of gain laser is 1000～1100nm.In the surrounding side of not plating the Yb:LSO laser crystal of anti-reflection deielectric-coating and increasing inverse medium film, be coated with indium platinum layer.The heat-sinking capability that indium platinum layer contributes to improve crystal is set, and then makes plane of crystal temperature keep constant.The Yb:LSO laser crystal 20 that is provided with deielectric-coating and indium platinum layer is fixed on water-cooled copper block, and water-cooled copper block is arranged on the water-cooled frame of red copper on adjustable optical translation platform.The distilled water of refrigeration and circulation guarantees that the surface temperature of Yb:LSO laser crystal 20 maintains 10 ℃, avoids causing due to heat accumulation the bad stability of Output of laser.

In a preferred embodiment of the present utility model, the radius of curvature of the first concave mirror 50 and the second concave mirror 60 is 75mm.Wherein, the big or small major effect of radius of curvature is assembled spot size to germ nucleus, and then affects the power of the kerr-lens effect of crystal.The utility model is defined as above-mentioned numerical value by the radius of curvature of the first concave mirror 50 and the second concave mirror 60, focal beam spot is little and space is compact, guarantee that gain laser is enough little in the center of Yb:LSO laser crystal 20, and then obtained higher power density, strengthen kerr-lens effect, thereby obtained shorter pulse duration and more stable self-starting locked mode running.Alternatively, the radius of curvature of the 3rd concave mirror 70 is 300mm.The effect of the 3rd concave mirror 70 is mainly that oscillating laser is focused on to SESAM30 above, and the big or small major effect of its radius of curvature is to the size of the upper hot spot of SESAM30.Its radius of curvature is defined as to 300nm, can guarantees 10 times of left and right that the energy-flux density on SESAM30 is saturated energy-flux density, meet the best operating condition of SESAM30.The second concave mirror 60 and the 3rd concave mirror 70 are all coated with towards the one side of resonant cavity the increasing inverse medium film that promotes gain laser reflection.

In a specific embodiment of the present utility model, the first concave mirror 50 is coated with towards the one side of pumping source 10 the anti-reflection deielectric-coating that promotes pumping laser transmission.The the first concave mirror 50 dorsad one side of pumping source 10 is coated with the anti-reflection deielectric-coating of promotion pumping laser transmission and the increasing inverse medium film that promotes gain laser reflection successively.

In a preferred embodiment of the present utility model, for the convenient position that regulates SESAM30, preferably, the first end mirror SESAM30 is arranged on adjustable optical translation platform.Can to the position of SESAM30, regulate as required like this, and then regulate the size of the upper hot spot of SESAM30.Consider that the distance between the second concave mirror 60 and crystal is very important for realizing kerr lens mode locking, for the ease of regulating this distance, preferably, the second concave mirror 60 is also arranged on adjustable optical translation platform.

The saturation flux of SESAM30, relaxation time have determined its auxiliary lock module feature, and these characteristics are determined by its growth temperature, uptake zone thickness.The size of the saturation flux of SESAM30, affects the threshold value of its auxiliary locked mode.In a most preferred embodiment of the present utility model, the modulation depth of SESAM30 is 0.4%, and saturation flux is 90J/cm ², relaxation time <500fs, centre wavelength is 1064nm.In addition, compare with other locked mode element, the auxiliary locked mode of SESAM30 that the utility model adopts, there is the advantages such as simple in structure and reliable and stable, can greatly simplify the internal structure of kerr lens mode locking laser, increase its practicality, thereby make ultrashort laser pulse obtain application and develop rapidly widely.

In specific embodiment of the utility model, the first end mirror SESAM30 and formed two end mirrors of resonant cavity for the second end mirror 40 of Output of laser, the length of whole resonant cavity is 1.33m, corresponding to repetition rate, is 113MHz.With the hot spot that abcd matrix calculates on crystal and SESAM, be respectively 14 μ m * 39 μ m and 54 μ m * 54 μ m.

The maximum average output power of steady and continuous locked mode that the laser providing in best enforcement of the present utility model obtains is 25Mw.The pulse autocorrelation signal that the intensity autocorrelation function analyzer that Fig. 2 is FR-103MN for employing model records.As can be seen from Figure 2, under hyperbolic arteries and veins secant type pulse hypothesis, corresponding pulse duration is 54fs, visible, adopts laser provided by the utility model can reach the shortest pulse output.Utilize spectrum that spectrometer records as shown in Figure 3.As can be seen from Figure 3, its centre wavelength is 1052nm, and spectrum halfwidth is 22.5nm.

Fig. 4 a-4b is the locked mode spectrogram that spectrum analyzer records.The resolution of Fig. 4 a is 1kHz, and frequency range is 250kHz; The resolution of Fig. 4 b is 100kHz, and frequency range is 1GHz.From Fig. 4 a-4b, can find out, laser provided by the utility model has good stability.

In order further to prove that the Mode-locking For Lasers running that the utility model provides is kerr lens mode locking really, in a specific embodiment of the present utility model, by plane high reflective mirror replacement for the first end mirror SESAM30.Utilize level crossing as end mirror, can obtain pulse duration is the pure kerr lens mode locking that 62.4fs is stable, and its intensity autocorrelation signal as shown in Figure 5.Although pure kerr lens mode locking is very stable, once locked mode losing lock, there is no extraneous perturbation as touched in the situations such as end mirror, cannot realize self-starting.

By thering is the intensity autocorrelation signal that does not adopt SESAM30 to assist locked mode to obtain in intensity autocorrelation signal that the auxiliary locked mode of SESAM30 obtains and Fig. 5 in Fig. 2, contrast, can find out, both intensity autocorrelation signal difference is less, and in key diagram 2, adopting the Mode-locking For Lasers running obtaining after the auxiliary locked mode of SESAM30 is kerr lens mode locking really.This has illustrated that the laser that the utility model provides is stable kerr lens self mode locking really, and due to the existence of SESAM30, completely can self-starting and realize locked mode steady in a long-term.And the utility model adopts the cavity resonator structure of symmetrical confocal, and adopt the tight chamber type focusing on to design, can reduce the with a tight waist size of gain laser on Yb:LSO germ nucleus, increased the power density in chamber, thereby further strengthened kerr-lens effect, be conducive to the formation of kerr lens mode locking.

Visible, the utlity model has good practicality and operability, compact conformation is small and exquisite, not only there is good stability but also can self-starting, be applicable to duplication of production and assembling, be suitable for that mass production, cost are lower, the pulse duration of the unidirectional output of laser, high repetition frequency, sub-100fs magnitude, the advantages such as high stability and self-starting, can be widely used in national defence, industry, medical treatment and scientific research field, there is good application prospect and commercial value.

So far, those skilled in the art will recognize that, although detailed, illustrate and described a plurality of exemplary embodiment of the present utility model herein, but, in the situation that not departing from the utility model spirit and scope, still can directly determine or derive many other modification or the modification that meets the utility model principle according to the disclosed content of the utility model.Therefore, scope of the present utility model should be understood and regard as and cover all these other modification or modifications.

Claims (8)

1. a kerr lens self mode locking Yb:LSO laser, for exporting the laser through locked mode, is characterized in that, comprising:

Pumping source (10), for providing pumping laser;

The laser crystal being formed by Yb:LSO material (20), simultaneously as gain media and kerr medium;

The optical system being formed by a plurality of optical elements, it is arranged to can be with kerr lens mode locking mechanism works together with pumping source (10) and described laser crystal (20); Wherein, described optical system comprises the resonant cavity of the round light path that is used to form described laser, and described laser crystal (20) is arranged in described round light path; Described resonant cavity have be arranged on described round light path first end place for reflecting first end mirror (30) of described laser;

Wherein, described the first end mirror (30) is semiconductor saturable absorbing mirror, for starting and stablizing described kerr lens mode locking.

2. laser according to claim 1, is characterized in that, described resonant cavity has second end mirror (40) as outgoing mirror at the second end place that is arranged on described round light path, for laser described in part reflection and part transmission.

3. laser according to claim 2, it is characterized in that, described resonant cavity also has along described round light path and is arranged on the first concave mirror (50), the second concave mirror (60) and the 3rd concave mirror (70) between described the first end mirror (30) and described the second end mirror (40); And be arranged so that the described pumping laser that described pumping source (10) sends incides on laser crystal (20) after the first concave mirror (50), the laser that vibration produces first incides on described the second concave mirror (60), and reflected successively by described the second concave mirror (60) and described the 3rd concave mirror (70), then incide on described the first end mirror (30); Described the first end mirror (30) returns to the former road of laser, arrive described the first concave mirror (50), and reflected successively by described the first concave mirror (50), finally incide described the second end mirror (40) upper, see through described the second end mirror (40) output through the described laser of locked mode.

4. laser according to claim 3, it is characterized in that, described resonant cavity also has in described round light path the GTI mirror (80) for dispersion compensation, its be arranged to by from the laser reflection of in described the first concave mirror (50) and described the second end mirror (40) to another, the anomalous dispersion value that described GTI mirror (80) provides is-800 fs ².

5. laser according to claim 1, is characterized in that, described optical system also comprises optical coupled focusing unit, for the described pumping laser from described pumping source (10) is focused on to described laser crystal.

6. laser according to claim 3, is characterized in that, the radius of curvature of described the first concave mirror (50) and described the second concave mirror (60) is 75mm, and the radius of curvature of described the 3rd concave mirror (70) is 300mm.

7. laser according to claim 1, is characterized in that, described laser crystal (20) is square shape, and described laser crystal (20) is of a size of 3mm * 3mm * 3mm.

8. laser according to claim 2, is characterized in that,

Described the second end mirror (40) is towards the deielectric-coating that to be coated with the transmitance of gain laser be 0.4% of the one side in described resonant cavity;

Described the second end mirror (40) the dorsad one side in described resonant cavity is coated with the anti-reflection deielectric-coating that promotes gain laser transmission.