CN204577834U - A kind of wideband adjustable narrow linewidth mid-infrared laser source - Google Patents
A kind of wideband adjustable narrow linewidth mid-infrared laser source Download PDFInfo
- Publication number
- CN204577834U CN204577834U CN201520341544.4U CN201520341544U CN204577834U CN 204577834 U CN204577834 U CN 204577834U CN 201520341544 U CN201520341544 U CN 201520341544U CN 204577834 U CN204577834 U CN 204577834U
- Authority
- CN
- China
- Prior art keywords
- ytterbium
- fiber amplifier
- amplifier
- mid
- infrared laser
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Lasers (AREA)
Abstract
A kind of wideband adjustable narrow linewidth mid-infrared laser source, relates to mid-infrared laser source.Inclined isolator, 2 phase-modulators, ytterbium doped optical fiber amplifier, erbium-ytterbium co-doped fiber amplifier, collimation focusing lens, photoparametric amplifiers are protected after protecting inclined isolator, the 2nd before protecting inclined isolator, the 2nd after protecting inclined isolator, the 1st before being provided with 2 external-cavity semiconductor laser, the 1st; 1st external-cavity semiconductor laser, the 1st phase-modulator, ytterbium doped optical fiber amplifier are put successively; 2nd external-cavity semiconductor laser, the 2nd phase-modulator, erbium-ytterbium co-doped fiber amplifier are put successively; Ytterbium doped optical fiber amplifier and erbium-ytterbium co-doped fiber amplifier all adopt 975nm lasing light emitter LD to inject as pumping source after the 1st protects inclined bundling device or the 2nd protects inclined bundling device; Protect inclined isolator output after protecting inclined isolator and the 2nd after collimation focusing lens connect the 1st, the output of collimation focusing lens exports mid-infrared laser through photoparametric amplifier.
Description
Technical field
The utility model relates to a kind of mid-infrared laser source, especially a kind of 3 ~ 5 mu m waveband high-power broadband tunable narrow-linewidth mid-infrared laser sources are related to, this lasing light emitter can be widely used in constant detection of gas, the online quick diagnosis of pollutant emission and monitoring, and airbreathing motor combustion chamber and combustion residue detect.
Background technology
At present, the main tunable mid-infrared laser source of 3 ~ 5 mu m wavebands mainly contains following a few class: 1, quantum cascade laser and interband cascade lasers (Y.Yao, A.J.Hoffman and C.F.Gmachl, " Mid-infrared quantum cascadelasers ", Nat.Photonics, vol.6, pp.432-439,2012.), this kind of laser structure is compact, can tuning operation be realized, but tuning range and power limited when narrow linewidth exports, 2, based on the fiber laser and amplifier (O.H.Sapir of rare earth and doped transition metal ions, J.Munch, and D.J.Ottaway, " Mid-infrared fiber lasersat and beyond 3.5 μm of using dual-wavelength pumping, " Opt.Lett., vol.39, pp.493,2014.), but also lack suitable broadband narrow linewidth seed source at present, simultaneously the spectral characteristic of gain fibre and manufacture craft need perfect, 3, based on the solid state laser mixing rare earth and transition metal ions, existing middle infrared solid laser product wavelength is also partially short, such as: the output wavelength scope of the tunable laser that IPG company is infrared in releasing is also below 3 μm, and the ripe not enough (S.B.Mirov of the laser crystal that can cover this wave-length coverage, V.V.Fedorov, D.Martyshkin, I.S.Moskalev, M.Mirov, and S.Vasilyev, " Progress in Mid-IR Lasers Based on Cr andFe-Doped II – VI Chalcogenides, " IEEE J.Sel.Top.Quantum Electron., vol.21, pp.1601719, 2015.), broad tuning and narrow linewidth simultaneously to be realized export in solid state laser simultaneously, very high challenge is proposed to the control precision of resonant cavity and the adaptive capacity to environment of laser, 4, optical parameter source, wherein with optical parametric oscillator (Opticalparametric oscillator, and photoparametric amplifier (Optical parametric amplifier OPO), OPA) be main, most representative be Aculight company of the U.S. research and development Argos system (
www.aculight.com), wide region tuning operation is achieved by PPLN crystal, intra cavity etalon and change pumping wavelength in synchronizing moving chamber, when modulating frequency is only 300Hz, the maximum magnitude of single-frequency tuning without mode skip is 50GHz, but this system is very expensive, simultaneously can restriction mutually between modulating frequency and tuning range.
Along with distributed feedback semiconductor laser (Distributed Feedback, and external-cavity semiconductor laser (ExtraCavity Diode Laser DFB), developing rapidly ECDL), the large-power optical fiber amplifier of based semiconductor laser seed source has become one of most important pumping source of OPO and OPA, by the tuning of parameter source can be realized to the tuning fast of seed light source, the narrow linewidth characteristic (MHz magnitude) of seed source can also be kept simultaneously.Although OPA scheme is low compared to OPO conversion efficiency, the features such as OPA reliability is higher, stability is better, simple and easy to control are more suitable for the high-risk on-the-spot test such as engine combustion diagnosis.
By analyzing discovery above, there is respective advantage in existing mid-infrared laser source, but need perfect in power level, tuned speed, tuning range, stability, reliability etc.
Summary of the invention
The purpose of this utility model is to provide a kind of wideband adjustable narrow linewidth mid-infrared laser source.
The utility model protects inclined isolator, the 1st phase-modulator, the 2nd phase-modulator, ytterbium doped optical fiber amplifier, erbium-ytterbium co-doped fiber amplifier, collimation focusing lens, photoparametric amplifier after protecting inclined isolator, the 2nd before protecting inclined isolator, the 2nd after protecting inclined isolator, the 1st before being provided with the 1st external-cavity semiconductor laser, the 2nd external-cavity semiconductor laser, the 1st;
Described 1st external-cavity semiconductor laser, the 1st phase-modulator, ytterbium doped optical fiber amplifier are put successively; Described 2nd external-cavity semiconductor laser, the 2nd phase-modulator, erbium-ytterbium co-doped fiber amplifier are put successively; Described ytterbium doped optical fiber amplifier and erbium-ytterbium co-doped fiber amplifier all adopt 975nm lasing light emitter LD to inject as pumping source after the 1st protects inclined bundling device or the 2nd protects inclined bundling device; Protect inclined isolator output, the output termination photoparametric amplifier input of collimation focusing lens after protecting inclined isolator and the 2nd after described collimation focusing lens connect the 1st, photoparametric amplifier, as mid-infrared laser source, exports mid-infrared laser.
Described ytterbium doped optical fiber amplifier optical fiber used can be double clad guarantor and partially mixes Yb
3+gain fibre.Described erbium-ytterbium co-doped fiber amplifier optical fiber used can be double clad and protects inclined Er
3+, Yb
3+mix gain fibre altogether; Described ytterbium doped optical fiber amplifier can adopt multistage, and described erbium-ytterbium co-doped fiber amplifier can adopt multistage.
Described photoparametric amplifier adopts periodical poled crystal MgO:PPLN, and crystalline size is 2mm × 10mm × 50mm.
The utility model utilizes two wideband adjustable external-cavity semiconductor laser as the seed light source of ytterbium doped optical fiber amplifier and erbium-ytterbium co-doped fiber amplifier respectively, the large-power optical fiber amplifying laser realized respectively near 1.06 μm and 1.5 μm by one or more levels Double-clad fiber amplifier is exported, the output of two fiber amplifiers is respectively as the pump light source of photoparametric amplifier and signal optical source, realize 3 ~ 5 mu m waveband narrow linewidth mid-infrared lasers by periodical poled crystal quasi-phase matched to export, by the change of pump light with fiber amplifier seed light source and flashlight fiber amplifier seed light source wavelength, realize high-power broadband tunable narrow-linewidth mid-infrared laser source to export.
In the utility model, the output of two fiber amplifiers injects photoparametric amplifier respectively as pump light and flashlight through collimation, conjunction bundle and focusing system.Described collimation, close linear polarization single-frequency pump light that fiber amplifier exported by the mode of free space coupling by bundle and focusing system and flashlight carries out high-quality collimation, in alignment procedure, the polarization state of flashlight and pump light is control effectively, make it have close spatial character, ensure good polarized matching.Close optical element by simple polarization insensitive, become by two bundle laser and overlap in space, the same light beam of beam propagation characteristic close, by same achromatism condenser lens, injects photoparametric amplifier.The YAG that described collimation focusing lens can directly adopt infrared transmittivity high or fluoride glass achromatic lens, lens are coated with wide-band anti-reflection coating.
The utility model utilizes two wideband adjustable external-cavity semiconductor laser as the seed light source of ytterbium doped optical fiber amplifier and erbium-ytterbium co-doped fiber amplifier respectively, the large-power optical fiber amplifying laser realized respectively near 1.06 μm and 1.5 μm by one or more levels Double-clad fiber amplifier is exported, amplify the basic no change on polarization direction, beam quality of later seed light, but energy is amplified step by step, high-energy, single-frequency, linearly polarized light can be obtained, respectively as pump light source and the signal optical source of photoparametric amplifier.In the utility model, photoparametric amplifier adopts MgO:PPLN crystal, principle is produced according to optical parameter, by tuning pump light, the mobile nonlinear crystal cycle, change the tuning operation that crystal working temperature etc. can realize flashlight and ideler frequency light, the utility model is from the viewpoint of stability and reliability, adopt the scheme of flashlight and pump light simultaneous tuning, the operation wavelength simultaneously changing two cavity semiconductor amplifiers respectively controls the change that pump light ytterbium doped optical fiber amplifier and flashlight erbium ytterbium join fiber amplifier output wavelength altogether, realize the tuning of parametric amplifier, in tuning process, the operation wavelength combination of two external-cavity semiconductor laser is determined according to the best quasi-phase matched of periodical poled crystal, ensure that photoparametric amplifier always works near gain peak, realize 3-5 mu m waveband high-power broadband tunable narrow-linewidth mid-infrared laser source to export, and at power level, tuned speed, tuning range, stability, reliability, the aspects such as compact conformation all reach better level, this lasing light emitter can be widely used in constant detection of gas, the online quick diagnosis of pollutant emission and monitoring, airbreathing motor combustion chamber and combustion residue detect.
The utility model proposes that to build based on two narrow linewidth ECDL semiconductor lasers be the large-power optical fiber amplifier of seed, utilize the output of two fiber amplifiers respectively as the signal optical source of OPA and pump light source, realize high-power tunable narrow-linewidth mid-infrared laser by periodical poled crystal MgO:PPLN quasi-phase matched and export.In the utility model, under the cycle and the immovable situation of working temperature of MgO:PPLN crystal, the wavelength of photoparametric amplifier is combined by the operation wavelength of two external-cavity semiconductor laser and determines, this combination is by MgO:PPLN crystal optimum phase matching conditional decision, in tuning process, change the wavelength of two external-cavity semiconductor laser respectively, when ensureing operation wavelength change simultaneously, photoparametric amplifier always works near gain peak, and nonlinear conversion efficiency is always optimum.This lasing light emitter all can reach better level in power level, tuned speed, tuning range, stability, reliability, compact conformation etc., can be widely used in constant detection of gas, the online quick diagnosis of pollutant emission and monitoring, airbreathing motor combustion chamber and combustion residue detect.
Accompanying drawing explanation
Fig. 1 is the structure composition schematic diagram of the utility model embodiment.
Embodiment
Following examples will the utility model is described in further detail by reference to the accompanying drawings.
As shown in Figure 1, the utility model embodiment protects inclined isolator 10, the 1st phase-modulator 3, the 2nd phase-modulator 8, ytterbium doped optical fiber amplifier 13, erbium-ytterbium co-doped fiber amplifier 14, collimation focusing lens 11, photoparametric amplifier 12 after protecting inclined isolator 7, the 2nd before protecting inclined isolator 5, the 2nd after protecting inclined isolator 2, the 1st before being provided with the 1st external-cavity semiconductor laser 1, the 2nd external-cavity semiconductor laser 6, the 1st; Described 1st external-cavity semiconductor laser 1, the 1st phase-modulator 3, ytterbium doped optical fiber amplifier 13 are put successively; Described 2nd external-cavity semiconductor laser 6, the 2nd phase-modulator 8, erbium-ytterbium co-doped fiber amplifier 14 are put successively; Described ytterbium doped optical fiber amplifier 13 and erbium-ytterbium co-doped fiber amplifier 14 all adopt 975nm lasing light emitter LD to inject as pumping source after the 1st protects inclined bundling device 4 or the 2nd protects inclined bundling device 9; Protect inclined isolator 10 output, output termination photoparametric amplifier 12 input of collimation focusing lens 11 after protecting inclined isolator 5 and the 2nd after described collimation focusing lens 11 connect the 1st, photoparametric amplifier 12, as mid-infrared laser source, exports mid-infrared laser.
The utility model embodiment adopts narrow linewidth to export, wavelength about 1060nm, the external-cavity semiconductor laser 1 of tunable wave length scope 50-100nm is as the seed light source of ytterbium doped optical fiber amplifier, and it to export after protecting inclined isolator 2 and phase-modulation 3 efficiently in injection fibre amplifier; Employing narrow linewidth exports, wavelength about 1550nm, the external-cavity semiconductor laser 6 of tunable wave length scope 50 ~ 100nm is as the seed light source of erbium-ytterbium co-doped fiber amplifier, and it to export after protecting inclined isolator 7 and phase-modulation 8 efficiently in injection fibre amplifier.The centre wavelength of described external-cavity semiconductor laser 1 and 6 is arranged by independent controller, and loads high frequency carrier by signal generator, utilizes semiconductor laser electrical quantity to be also that wavelength-modulation technique is carried out tuning fast on the impact of wavelength.The effect of the inclined isolator 2 and 7 of described guarantor is the impacts for suppressing the nonlinear optical effect such as stimulated Brillouin scattering in narrow linewidth fiber amplifier.
Described ytterbium doped optical fiber amplifier optical fiber used is that double clad guarantor mixes Yb partially
3+gain fibre.Described erbium-ytterbium co-doped fiber amplifier optical fiber used is that double clad protects inclined Er
3+, Yb
3+mix gain fibre altogether, the function of fiber amplifier be improve power output while and not obvious change spectral characteristic, maintain narrow linewidth output characteristic, the progression of fiber amplifier is not limited to one-level and amplifies, and can be multistage amplification.
Described fiber amplifier all adopts 975nm semiconductor laser as pumping source, and pump light is through protecting inclined bundling device 5 or 10 injection fibre, and fiber amplifier input, output are all arranged protects inclined isolator.Describedly mix Yb
3+the isolator 5 that fiber amplifier uses has and widely passes through characteristic, near ensureing 1.06 μm, broad band laser can pass through in low-loss, suitably can suppress the ability of the spontaneous emission light beyond seed spectrum simultaneously, described erbium and ytterbium codoping is protected the inclined isolator of guarantor 10 that inclined double-cladding fiber amplifier selects and is had equally and widely pass through characteristic, near ensureing 1.55 μm, broad band laser can pass through in low-loss, the ability of spontaneous emission light near 1.06 μm can be suppressed simultaneously, prevent Yb strong in amplifier
3+ion spontaneous radiation forms laser generation, consumed energy, damages device.
Described seed light source amplifies through one or more levels fiber amplifier, amplify the basic no change on polarization direction, beam quality of later seed light, but energy is amplified step by step, finally obtain high-energy, single-frequency, linearly polarized light output, high-power to ensure that last mid-infrared laser source exports, the output of joining fiber amplifier altogether of described ytterbium doped optical fiber amplifier and erbium ytterbium is respectively as the pump light of photoparametric amplifier and flashlight.
The utility model embodiment is provided with collimation focusing lens 11, the linear polarization single-frequency pump light exported by two fiber amplifiers by the mode of free space coupling and flashlight carry out high-quality collimation, in alignment procedure, the polarization state of flashlight and pump light is control effectively, make it have close spatial character, ensure good polarized matching.。Close optical element by simple polarization insensitive, become by two bundle laser and overlap in space, the same light beam of beam propagation characteristic close, by same achromatism condenser lens, injects photoparametric amplifier.The YAG that described collimation focusing lens can directly adopt infrared transmittivity high or fluoride glass achromatic lens, lens are coated with wide-band anti-reflection coating.
The utility model embodiment adopts photoparametric amplifier to realize mid-infrared laser source and exports, and described photoparametric amplifier is realized by periodical poled crystal MgO:PPLN, crystalline size 2mm × 10mm × 50mm.The mode that described period polarized MgO:PPLN crystal adopts seed (flashlight or ideler frequency light) to inject can obtain the output of stable narrow linewidth, realizes mid-infrared laser source export by periodical poled crystal quasi-phase matched.Principle is produced according to optical parameter, by tuning pump light, mobile nonlinear crystal cycle, change the tuning operation that crystal working temperature etc. can realize flashlight and ideler frequency light, the utility model embodiment is from the viewpoint of stability and reliability, adopt the scheme of pump tuning, the change of photoparametric amplifier output wavelength is realized by the change of flashlight and pump light.The flashlight of described parametric amplifier is the fiber amplifier of narrow linewidth linear polarization wideband adjustable near 1550nm, and the pump light of described parametric amplifier is the fiber amplifier of narrow linewidth linear polarization wideband adjustable near 1060nm.When fixing MgO:PPLN Crystal polarization cycle and working temperature, change the operation wavelength of two cavity semiconductor amplifiers respectively simultaneously, control pump light ytterbium doped optical fiber amplifier and flashlight erbium ytterbium join the change of fiber amplifier output wavelength altogether, realize the tuning of parametric amplifier.In tuning process, the operation wavelength combination of two external-cavity semiconductor laser is determined by the best quasi-phase matched of MgO:PPLN crystal, ensure that photoparametric amplifier always works near gain peak, 3 ~ 5 mu m waveband high-power broadband tunable narrow-linewidth mid-infrared laser sources that realize export.In the working temperature in conjunction with photoparametric amplifier nonlinear crystal MgO:PPLN crystal, the mobile crystal cycle, the tuning narrow linewidth mid-infrared laser that can realize more wide region exported even with when changing other crystalline material.
The utility model embodiment is by emission wavelength at about 1060nm, and the narrow line wide cavity semiconductor laser of tunable range 50 ~ 100nm is as the seed light source of ytterbium doped optical fiber amplifier, by emission wavelength near 1550nm, the narrow line wide cavity semiconductor laser of tunable range 50 ~ 100nm joins the seed light source of fiber amplifier altogether as erbium ytterbium, the high-energy near 1 μm and 1.5 μm is realized respectively through one or more levels Double-clad fiber amplifier, single-frequency, linearly polarized laser exports, respectively as pump light source and the signal optical source of photoparametric amplifier, period polarized MgO:PPLN crystal is injected after collimation focusing, realize 3 ~ 5 mu m waveband narrow linewidth mid-infrared lasers by periodical poled crystal quasi-phase matched to export, by the change with fiber amplifier seed light source wavelength of pump light fiber amplifier and flashlight, realize high-power broadband tunable narrow-linewidth mid-infrared laser source to export.
Claims (6)
1. a wideband adjustable narrow linewidth mid-infrared laser source, protects inclined isolator, 1st phase-modulator, 2nd phase-modulator, ytterbium doped optical fiber amplifier, erbium-ytterbium co-doped fiber amplifier, collimation focusing lens, photoparametric amplifier after protecting inclined isolator, the 2nd before it is characterized in that being provided with the 1st external-cavity semiconductor laser, the 2nd external-cavity semiconductor laser, the 1st after protecting inclined isolator, the 1st before protecting inclined isolator, the 2nd;
Described 1st external-cavity semiconductor laser, the 1st phase-modulator, ytterbium doped optical fiber amplifier are put successively; Described 2nd external-cavity semiconductor laser, the 2nd phase-modulator, erbium-ytterbium co-doped fiber amplifier are put successively; Described ytterbium doped optical fiber amplifier and erbium-ytterbium co-doped fiber amplifier all adopt 975nm lasing light emitter LD to inject as pumping source after the 1st protects inclined bundling device or the 2nd protects inclined bundling device; Protect inclined isolator output, the output termination photoparametric amplifier input of collimation focusing lens after protecting inclined isolator and the 2nd after described collimation focusing lens connect the 1st, photoparametric amplifier, as mid-infrared laser source, exports mid-infrared laser.
2. a kind of wideband adjustable narrow linewidth mid-infrared laser source as claimed in claim 1, is characterized in that described ytterbium doped optical fiber amplifier optical fiber used is that double clad is protected and partially mixed Yb
3+gain fibre.
3. a kind of wideband adjustable narrow linewidth mid-infrared laser source as claimed in claim 1, is characterized in that described erbium-ytterbium co-doped fiber amplifier optical fiber used is that double clad protects inclined Er
3+, Yb
3+mix gain fibre altogether.
4. a kind of wideband adjustable narrow linewidth mid-infrared laser source as claimed in claim 1, is characterized in that described ytterbium doped optical fiber amplifier adopts multistage.
5. a kind of wideband adjustable narrow linewidth mid-infrared laser source as claimed in claim 1, is characterized in that described erbium-ytterbium co-doped fiber amplifier adopts multistage.
6. a kind of wideband adjustable narrow linewidth mid-infrared laser source as claimed in claim 1, it is characterized in that described photoparametric amplifier adopts periodical poled crystal MgO:PPLN, crystalline size is 2mm × 10mm × 50mm.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520341544.4U CN204577834U (en) | 2015-05-25 | 2015-05-25 | A kind of wideband adjustable narrow linewidth mid-infrared laser source |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520341544.4U CN204577834U (en) | 2015-05-25 | 2015-05-25 | A kind of wideband adjustable narrow linewidth mid-infrared laser source |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN204577834U true CN204577834U (en) | 2015-08-19 |
Family
ID=53870429
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201520341544.4U Active CN204577834U (en) | 2015-05-25 | 2015-05-25 | A kind of wideband adjustable narrow linewidth mid-infrared laser source |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN204577834U (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104836111A (en) * | 2015-05-25 | 2015-08-12 | 厦门大学 | Broadband tunable narrow linewidth intermediate-infrared laser source |
| CN109787081A (en) * | 2019-01-23 | 2019-05-21 | 广东朗研科技有限公司 | Mid-infrared ultra-short pulse laser light source |
| CN111509548A (en) * | 2020-04-02 | 2020-08-07 | 北京航天控制仪器研究所 | Narrow-linewidth intermediate infrared laser with tunable wavelength |
-
2015
- 2015-05-25 CN CN201520341544.4U patent/CN204577834U/en active Active
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104836111A (en) * | 2015-05-25 | 2015-08-12 | 厦门大学 | Broadband tunable narrow linewidth intermediate-infrared laser source |
| CN109787081A (en) * | 2019-01-23 | 2019-05-21 | 广东朗研科技有限公司 | Mid-infrared ultra-short pulse laser light source |
| CN111509548A (en) * | 2020-04-02 | 2020-08-07 | 北京航天控制仪器研究所 | Narrow-linewidth intermediate infrared laser with tunable wavelength |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Zhou et al. | Review on recent progress on mid-infrared fiber lasers | |
| Wu et al. | Diode-pumped single frequency Tm: YAG laser at room temperature | |
| Zhao et al. | High efficiency, single-frequency continuous wave Nd: YVO4/YVO4 ring laser | |
| Yang et al. | A single-frequency linearly polarized fiber laser using a newly developed heavily Tm3+-doped germanate glass fiber at 1.95 μm | |
| Lü et al. | Efficient continuous‐wave intracavity frequency‐doubled Nd: YAG‐LBO blue laser at 473 nm under diode pumping directly into the emitting level | |
| CN204577834U (en) | A kind of wideband adjustable narrow linewidth mid-infrared laser source | |
| Li et al. | Eye-safe diamond Raman laser | |
| Lin et al. | Efficient and compact diode-pumped Nd: YAG lasers at 1073 and 1078 nm | |
| Duan et al. | Stable output, high power diode-pumped Tm: YLF laser with a volume Bragg grating | |
| Wang et al. | Diode‐pumped injection‐seeded Tm, Ho: GdVO4 laser | |
| Chen et al. | Mutual injection-locking and coherent combining of two individual fiber lasers | |
| Ma et al. | Mid-infrared random fiber laser assisted by the passive feedback | |
| Wu et al. | Room temperature operation of single frequency Tm: LuAG laser end-pumped by laser-diode | |
| Eichhorn | Pulsed 2 µm fiber lasers for direct and pumping applications in defence and security | |
| Lü et al. | Diode‐pumped Nd: YAG/BiB3O6 deep‐blue laser at 449.5 nm | |
| AU2017329246A1 (en) | Cascaded, long pulse and continuous wave raman lasers | |
| CN104836111B (en) | Wideband adjustable narrow linewidth mid-infrared laser source | |
| Chen et al. | 5.6-mJ, Single-Frequency, End-Pumped Tm: Ho: LuLiF 4 Slab Amplifier System | |
| Lü et al. | High-efficiency direct-pumped Nd: YLF laser operating at 1321 nm. | |
| Lü et al. | Diode-Pumped Quasi-Three-Level ${\rm Nd}{:}{\rm YVO} _ {4} $ Laser With Orthogonally Polarized Emission | |
| Lu et al. | Highly efficient single longitudinal mode-pulsed green laser | |
| Shi et al. | Photonic narrow linewidth GHz source based on highly codoped phosphate glass fiber lasers in a single MOPA chain | |
| Rowen et al. | A combined Yb-Raman fiber amplifier for generating narrow linewidth, high-power pulses in the 1100-1200 nm wavelength range and efficient nonlinear conversion into yellow | |
| Ding et al. | Single Longitudinal Mode and Widely Tunable Er: Y 2 O 3 Ceramic Laser at∼ 2.7 μm | |
| Malinowski et al. | Fiber MOPA based tunable source for terahertz spectroscopy |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant |