CN201374492Y

CN201374492Y - High-power single-frequency pulse/continuous dual-output fiber laser

Info

Publication number: CN201374492Y
Application number: CN200920106162U
Authority: CN
Inventors: 胡小波
Original assignee: Shenzhen Maxphotonics Technology Development Co Ltd
Current assignee: Maxphotonics Co Ltd
Priority date: 2009-03-13
Filing date: 2009-03-13
Publication date: 2009-12-30
Anticipated expiration: 2019-03-13

Abstract

The utility model discloses a high-power single-frequency pulse/continuous dual-output fiber laser which comprises a single-frequency fiber seed laser with ultra-narrow linewidth, a fiber branching unit, a modulator, at least one-stage fiber amplifier and a circuit module. The single-frequency fiber seed laser with ultra-narrow linewidth generates and outputs single-frequency continuous laser light; the continuous laser light is divided into two branches through the fiber branching unit which is connected with the single-frequency fiber seed laser, wherein the laser light of a first branch is output as continuous laser light, and the laser light of a second branch is switched into the modulator; the modulator which is connected with the fiber branching unit modulates the laser light of the input second branch into pulse laser light to be output; the pulse laser light which is output by the modulator is switched into the fiber amplifier which then outputs the pulse laser light after amplifying the power of the pulse laser light; and the circuit module is respectively connected with the single-frequency fiber seed laser, the fiber branching unit, the modulator and the fiber amplifier. Therefore, the high-power single-frequency pulse/continuous dual-output fiber laser can simultaneously obtain high-power single-frequency pulse laser light output and continuous laser light output, and can achieve good combination of power and coherence property in the application of the single-frequency fiber laser.

Description

A kind of high power single-frequency pulse/continuous dual output optical fiber laser

Technical field

The utility model relates to laser equipment, relates in particular to a kind of high power single-frequency pulse/continuous dual output optical fiber laser.

Background technology

The single frequency laser of present international solid has two kinds, and a kind of is fiber laser, and another is semiconductor pumped solid state laser.

Existing single frequency optical fiber laser or the output of employing continuous power, or adopt ns (nanosecond) level pulsed operation, but can not export the single-frequency laser of pulse and continuous two kinds of systems simultaneously.The live width of existing pulse optical fiber all be hundreds of MHz to tens GHz, can not accomplish the ultra-narrow wire single frequency output of live width tens KHz magnitudes.The resonant cavity of fiber laser can only produce continuous single-frequency laser output on principle, and can not directly produce the single-frequency laser output of pulse, because with optical fiber be the single-frequency optical signals output that the single-frequency seed light fibre laser of resonant cavity can not produce pulse by the mode that pulse current drives pump laser.Existing pulse optical fiber is to produce laser pulse with acousto-optic Q modulation or electric-optically Q-switched chamber internal modulation mode, and pulse duration can not be accomplished the pulse output of several ns all in tens ns magnitudes.Just because of can not accomplish the single-frequency output of super-narrow line width in the pulse mode of traditional pulse optical fiber employing, thereby can not accomplish to be single-frequency, be again the output of pulse.

What semiconductor pumped pure-tone pulse solid state laser adopted is semiconductor pumped solid state laser technology, what produce is the pure-tone pulse output of free space, but there are bigger gap in its performance and SF pulse optical fibre laser, it at first is beam quality, the beam quality of SF pulse optical fibre laser is through the shaping of optical fiber, and whole spatial distribution is to approach perfect single mode single-frequency to distribute; Because SF pulse optical fibre laser is optical fiber output, and fiber lengths can prolong arbitrarily, the flexibility of whole use improves greatly in addition.

In summary, existing single frequency laser obviously exists inconvenience and defective on reality is used, so be necessary to be improved.

The utility model content

At above-mentioned defective, the purpose of this utility model is to provide a kind of high power single-frequency pulse/continuous dual output optical fiber laser, and it can obtain the high power pulsed laser output and the continuous laser output of single-frequency simultaneously.

To achieve these goals, the utility model provides a kind of high power single-frequency pulse/continuous dual output optical fiber laser, comprising:

The single-frequency optical fiber seed laser of at least one super-narrow line width, the continuous laser of its generation and output single-frequency;

At least one optical fiber splitter, be connected with described single-frequency optical fiber seed laser, the continuous laser of described single-frequency optical fiber seed laser output is divided into two-way after by described optical fiber splitter, and first via laser is exported as continuous laser, and the second road laser inserts modulator;

At least one modulator is connected with described optical fiber splitter, and the second tunnel Laser Modulation that described modulator will be imported becomes pulse laser output;

The single cladded fiber amplifier of the first order is connected with described modulator, and the described pulse laser that inserts is carried out exporting after the first order power amplification; And

Second level double-cladding fiber amplifier is connected with the single cladded fiber amplifier of the described first order, with the output again after the pulse laser after the first order power amplification carries out second level power amplification that inserts;

At least one circuit module that is used for laser control/monitoring, described circuit module is connected with fiber amplifier with described single-frequency optical fiber seed laser, optical fiber splitter, modulator.

Preferably, the single cladded fiber amplifier of the described first order comprises:

One wavelength division multiplexer is connected with described modulator;

One pump laser is connected with described circuit module with described wavelength division multiplexer respectively; And

One filtering/isolation hybrid device is connected with described circuit module with described wavelength division multiplexer respectively.

Preferably, described second level double-cladding fiber amplifier comprises:

One isolator is connected with high-power mixer with the thin fiber amplifier of the described first order respectively;

One high-power mixer is connected with described isolator, high-power pump laser and high-power isolator respectively;

One high-power pump laser is connected with described circuit module with this high-power mixer respectively;

One high-power isolator is connected with high-power splitter with described high-power mixer respectively; And

One high-power splitter is connected with described high-power isolator.

Preferably, described dual output optical fiber laser also comprises:

One collimater is connected with described high-power splitter, output after the pulse laser that described collimater is exported described high-power splitter collimates; And/or

One is used to detect the photodetector of electric flux, and this photodetector is connected with described circuit module with described high-power splitter respectively.

Preferably, the operation wavelength of described dual output optical fiber laser is 1060nm wave band and 1550nm wave band.

Preferably, described single-frequency optical fiber seed laser comprises the single-frequency fiber resonance cavity of pump laser and super-narrow line width, and the described single-frequency fiber resonance cavity of described pump laser pumping is with the continuous laser of output single-frequency.

Preferably, described optical fiber splitter also is connected with one-level fiber amplifier at least, and described fiber amplifier inserts the continuous laser of described optical fiber splitter output, and described continuous laser is carried out exporting after the power amplification.

Preferably, described dual output optical fiber laser also comprises at least one ps/ns level pulse generating circuit that is used to drive described modulator, and described ps/ns level pulse generating circuit is connected with described circuit module with described modulator respectively;

Preferably, described modulator is acousto-optic modulator or electrooptic modulator.

Preferably, described circuit module is provided with some RS232/RS485 interfaces; And/or

Described circuit module is provided with the automatic temperature-adjusting control circuit.

The utility model is by being provided with optical fiber splitter, the continuous laser of single-frequency optical fiber seed laser output is divided into two-way, a road of smaller power is exported as continuous laser, another road input modulator that power is bigger is modulated into pulse laser output, successively adopt single cladded fiber amplifier of the first order and second level double-cladding fiber amplifier paired pulses laser to carry out power amplification, and then can obtain high-power pulse laser output.Because the output laser of continuous/these two kinds of systems of pulse is exported based on same single-frequency seed source, the utility model dual output optical fiber laser is when doing relevant the application, continuous laser can be as intrinsic light, and pulse laser is because peak power is very high, can be as the flashlight of long-range detection, thereby the low problem of power can solve continuous system the time, the live width in the time of solving the pulse system again is wide, the problem that coherence property is bad, thus realized the good combination of power and coherence property.

Description of drawings

Fig. 1 is the structural representation of the utility model high power single-frequency pulse/continuous dual output optical fiber laser;

Fig. 2 is the light path instance graph that the utility model dual output optical fiber laser contains first order fiber amplifier;

Fig. 3 is the light path instance graph that the utility model dual output optical fiber laser contains second level fiber amplifier.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearer,, the utility model is further elaborated below in conjunction with drawings and Examples.Should be appreciated that specific embodiment described herein only in order to explanation the utility model, and be not used in qualification the utility model.

Fig. 1 shows the structure of the utility model high power single-frequency pulse/continuous dual output optical fiber laser 100, and it mainly comprises:

The single-frequency optical fiber seed laser 10 of at least one super-narrow line width, it is used to produce and export the continuous laser of single-frequency as seed laser.As shown in Figure 2, described single-frequency optical fiber seed laser 10 comprises the single-frequency fiber resonance cavity 12 of pump laser 11 and super-narrow line width.Because the output laser of continuous/these two kinds of systems of pulse is exported based on same single-frequency seed source, therefore can realize the laser output of complete single-frequency and super-narrow line width.

At least one optical fiber splitter 20, be connected with single-frequency optical fiber seed laser 10, the continuous laser of this single-frequency optical fiber seed laser 10 outputs is divided into two-way after by optical fiber splitter 20, the first via continuous laser of predetermined smaller power value scope is exported as continuous laser, and the second road continuous laser of predetermined more high-power value scope inserts modulator 30.

At least one modulator 30 that is connected with optical fiber splitter 20, the second road continuous laser that this modulator 30 will be imported are modulated into pulse laser output.This modulator 30 can be acousto-optic modulator or electrooptic modulator.

The single cladded fiber amplifier 41 of the first order is connected with modulator 30, and the pulse laser of access is carried out exporting after the first order power amplification, can obtain W (watt) the pure-tone pulse laser of grade peak power.

Second level double-cladding fiber amplifier 42 is connected with the single cladded fiber amplifier 41 of the first order, with the output again after the pulse laser after the first order power amplification carries out second level power amplification that inserts, can obtain KW (kilowatt) the high power single frequency pulse laser of level peak power, and this second level double-cladding fiber amplifier 42 also can suppress the ASE noise.

At least one circuit module 50 that is used for laser control/monitoring, this circuit module 50 are connected with single-frequency optical fiber seed laser 10, optical fiber splitter 20, modulator 30 and fiber amplifier 41～42 respectively.

Live width＜=the 3KHz of the laser of continuous light output among Fig. 1, the output continuous power is the mW level, be more preferably, if optical fiber splitter 20 also is connected with one-level fiber amplifier 43 at least, the continuous laser of these fiber amplifier 43 incoming fiber optic splitters 20 outputs, and continuous laser carried out exporting after the power amplification, its output continuous power can reach 2W.

In this example, single-frequency optical fiber seed laser 10, optical fiber splitter 20, modulator 30 and

fiber amplifier

41 and 42 constitute the light path module, and light path module and circuit module 50 combine and constitute complete high power high power single-frequency pulse/continuous dual output optical fiber laser 100.The operation wavelength of the utility model dual output optical fiber laser 100 is 1060nm wave band and 1550nm wave band, promptly 1060nm and 1550nm wave band realized be stable live width be that the ultra-narrow wire single frequency of KHz magnitude is exported continuously, be again the pulsed operation system of ns level simultaneously, the peak value of pulse that can obtain the KW level is high-power.Operation wavelength stability＜=the 1pm/ of the utility model dual output optical fiber laser 100 ℃, can realize of the output of 1KHz low-repetition-frequency to the high repetition frequency of 200KHz.

Fig. 2 is the practical circuit figure that the utility model dual output optical fiber laser contains first order fiber amplifier, described single-frequency optical fiber seed laser 10 comprises the single-frequency fiber resonance cavity 12 of single mode 980nm pump laser 11 and super-narrow line width, single mode 980nm pump laser 11 pumping single-frequency fiber resonance cavities 12 with output single-frequency continuous laser as seed laser.This continuous laser is divided into two-way after by optical fiber splitter 20, and lower-powered first via laser is as continuous laser output (power is the mW level, if add the one-level fiber amplifier again, the output continuous power can reach 2W).The second road continuous laser that power is bigger inserts acousto-optic/electrooptic modulator 30.Dual output optical fiber laser 100 also comprises at least one ps/ns level pulse generating circuit 61, this ps/ns level pulse generating circuit 61 is connected with circuit module 50 with acousto-optic/electrooptic modulator 30 respectively, and this ps/ns level pulse generating circuit 61 is used to drive acousto-optic/electrooptic modulator 30.After acousto-optic/electrooptic modulator 30 is driven, the second road continuous laser is modulated into pulse laser, wherein can be modulated into the pulse laser of 60ns-800ns, can be modulated into the pulse laser of 100ps--20ns level by electrooptic modulator by acousto-optic modulator.The pure-tone pulse laser power of this modulation back output is very faint, the fiber amplifier (for example single cladded fiber amplifier 41 of the first order) of adding the amplification of the special superelevation gain of first order faint optical signal in the back amplifies, can obtain the pure-tone pulse laser output of watt level peak power, SF pulse seeds output as back grade amplifier, after amplifying by the secondary double-cladding fiber amplifier (for example second level double-cladding fiber amplifier 42) that adopts pulse pump then, the pure-tone pulse laser output of KW level peak power can be reached, the ASE noise of double-cladding fiber amplifier when not having the light pulse signal input can be suppressed simultaneously.

In the example shown in Figure 2, the single cladded fiber amplifier 41 of the first order connects by active single cladded fiber, it comprises: the wavelength division multiplexer (WDM) 411 that is connected with acousto-optic/electrooptic modulator 30, this wavelength division multiplexer (WDM) 411 is preferably 910/1550nm WDM, can realize transmitting multiple signals simultaneously in the optical fiber.The 980nm pump laser 412 that is connected with circuit module 50 with wavelength division multiplexer 411 respectively; An and filtering/isolation hybrid device 413 that is connected with circuit module 50 with wavelength division multiplexer 411 respectively.

Fig. 3 is the practical circuit figure that the utility model dual output optical fiber laser contains second level fiber amplifier, the pulse laser that dual output optical fiber laser 100 is provided with pure-tone pulse output 414 outputs of the single cladded fiber amplifier 41 of 62 pairs of first order of ps/ns level pulse generating circuit drives, pure-tone pulse output 414 is connected with second level double-cladding fiber amplifier 42, pulse laser is exported to second level double-cladding fiber amplifier 42.Second level double-cladding fiber amplifier 42 connects by active doubly clad optical fiber, mainly comprises:

Isolator 421 is connected with high-power mixer 422 with the thin fiber amplifier 41 of the first order respectively.Isolator 421 is used for light path and is used for avoiding echo in the light path to light source, interference and infringement that pumping source and other luminescent devices cause.

High-power mixer 422 is connected with isolator 421, high-power pump laser 423 and high-power isolator 424 respectively.

High-power pump laser 423 is connected with circuit module 50 with this high-power mixer 422 respectively, and high-power pump laser 423 is preferably the 975nm high-power pump laser.

High-power isolator 424 is connected with high-power splitter 425 with high-power mixer 422 respectively.

High-power splitter 425 is connected with high-power isolator 424.

Circuit module 50 realizes that by the high power pumping pulse driving circuit high power pulse amplifies simultaneously, suppresses ASE spontaneous radiation luminous power among Fig. 3.And when no seed input optical power, the pumping source of second level double-cladding fiber amplifier 42 can not be opened with protective circuit.In addition, circuit module 50 is provided with some RS232/RS485 interfaces, should can (comprise: product Electronic Serial Number, Mean Input Power, average output power by the running status of this fiber laser of instruction monitoring by RS232 interface user, pumping source drive current, pumping source luminous power, pumping source temperature, pumping source temperature control voltage, inside modules temperature etc.), and control and the operation (comprising: switch pumping source, pumping source drive current etc. is set) of this fiber amplifier is set.Preferably, circuit module 50 also is provided with secondary automatic temperature-adjusting control circuit ATC, high power single-frequency pulse/continuous dual output optical fiber laser 100 has been realized the wavelength of pm level is highly stable.Circuit module 50 also can comprise pulse/continuous trigger circuit, pulse/continuous pump laser drive circuit, automatic optical power control circuit etc.

Be pointed out that, fiber amplifier 43 and second level double-cladding fiber amplifier 42 similar among Fig. 2, what just the high-power pump laser 423 of fiber amplifier 43 adopted is continuous high-power pump laser, and high-power pump laser 423 employings of fiber amplifier 42 is the pulse high-power pump laser.

Dual output optical fiber laser 100 among Fig. 3 also comprises: a collimater 80 that is connected with high-power splitter 425, output after the pulse laser that collimater 80 is exported high-power splitter 425 collimates.Can comprise that also one is used to detect the photodetector 70 of electric flux, this photodetector 70 is connected with circuit module 50 with high-power splitter 425 respectively.

The utility model high power high power single-frequency pulse/continuous dual output optical fiber laser, can be widely used in long distance laser Doppler anemometry radar, distributed B-OTDA fiber strain of distant-range high-precision and temperature-sensing system, the high accuracy coherent laser imaging radar, high-precision optical fiber underwater sound sensor-based system, the little vibration sensing system of high-precision optical fiber, coherent laser communication system, the quantum Fiber Optical Communication System, laser interferometry instrument etc.

In sum, the utility model is by being provided with optical fiber splitter, the continuous laser of single-frequency optical fiber seed laser output is divided into two-way, a road of smaller power is exported as continuous laser, another road input modulator that power is bigger is modulated into pulse laser output, successively adopt single cladded fiber amplifier of the first order and second level double-cladding fiber amplifier paired pulses laser to carry out power amplification, and then can obtain high-power pulse laser output.Because the output laser of continuous/these two kinds of systems of pulse is exported based on same single-frequency seed source, the utility model dual output optical fiber laser is when doing relevant the application, continuous laser can be as intrinsic light, and pulse laser is because peak power is very high, can be as the flashlight of long-range detection, thereby the low problem of power can solve continuous system the time, the live width in the time of solving the pulse system again is wide, the problem that coherence property is bad, thus realized the good combination of power and coherence property.

Certainly; the utility model also can have other various embodiments; under the situation that does not deviate from the utility model spirit and essence thereof; those of ordinary skill in the art work as can make various corresponding changes and distortion according to the utility model, but these corresponding changes and distortion all should belong to the protection range of the appended claim of the utility model.

Claims

1, a kind of high power single-frequency pulse/continuous dual output optical fiber laser is characterized in that, comprising:

2, high power single-frequency pulse/continuous dual output optical fiber laser according to claim 1 is characterized in that, the single cladded fiber amplifier of the described first order comprises:

One wavelength division multiplexer is connected with described modulator;

3, high power single-frequency pulse/continuous dual output optical fiber laser according to claim 1 is characterized in that, described second level double-cladding fiber amplifier comprises:

One high-power splitter is connected with described high-power isolator.

4, high power single-frequency pulse/continuous dual output optical fiber laser according to claim 3 is characterized in that described dual output optical fiber laser also comprises:

5, high power single-frequency pulse/continuous dual output optical fiber laser according to claim 1 is characterized in that, the operation wavelength of described dual output optical fiber laser is 1060nm wave band and 1550nm wave band.

6, high power single-frequency pulse/continuous dual output optical fiber laser according to claim 1, it is characterized in that, described single-frequency optical fiber seed laser comprises the single-frequency fiber resonance cavity of pump laser and super-narrow line width, and the described single-frequency fiber resonance cavity of described pump laser pumping is with the continuous laser of output single-frequency.

7, high power single-frequency pulse/continuous dual output optical fiber laser according to claim 1, it is characterized in that, described optical fiber splitter also is connected with one-level fiber amplifier at least, described fiber amplifier inserts the continuous laser of described optical fiber splitter output, and will export after the power amplification of described sharp row continuously.

, high power single-frequency pulse/continuous dual output optical fiber laser according to claim 1, it is characterized in that, described dual output optical fiber laser also comprises at least one ps/ns level pulse generating circuit that is used to drive described modulator, and described ps/ns level pulse generating circuit is connected with described circuit module with described modulator respectively;

9, high power single-frequency pulse/continuous dual output optical fiber laser according to claim 8 is characterized in that, described modulator is acousto-optic modulator or electrooptic modulator.

10, high power single-frequency pulse/continuous dual output optical fiber laser according to claim 1 is characterized in that, described circuit module is provided with some RS232/RS485 interfaces; And/or