半导体激光泵浦的Nd:YVO4激光器的1.064 μm高效率连续输出

报道了半导体激光端面泵浦的Nd:YVO4激光器获得线偏振的1.064 μｍ激光高效率连续稳定输出。在半导体激光功率为1.5 W时，获得连续输出功率为837 kW的TEM00模，激光器泵浦阈值功率为140 kW，斜率效率达61.5％，光-光转换效率达56％，电-光转换效率达15％。     

全光纤激光器实现kW级功率输出

 搭建了一台全光纤结构的光纤激光器。采用双端泵浦结构,共有36个泵浦输入端。在使用其中的24个泵浦输入端,泵浦功率为1 477 W时,获得了1 008 W高功率输出,光光转换效率为68%。输出激光的中心波长为1 082 nm,半波全宽为3 nm。目前激光器输出功率受限于泵浦功率,增加泵浦源的数目有望进一步提高输出功率。     

基于光栅反馈技术的掺铥光纤随机激光器

提出一种基于光栅反馈技术的掺铥光纤随机激光器。激光器采用半开腔设计,封闭端采用中心波长为1 940 nm的高反射率光纤光栅为激光器系统提供强反馈,增益介质采用1.5 m长的掺铥光纤,泵浦源采用793 nm半导体激光器,开放端采用光纤随机光栅提供随机分布反馈。该光纤随机光栅由飞秒激光逐点刻写技术制备,在10 cm单模光纤上刻写超过6 000个间距随机分布的折射率畸变点,以增强光纤的后向瑞利散射效应。实验测得中心波长为1 940 nm的随机激光输出,其泵浦阈值为2.33 W,在3.8 W泵浦功率下的输出功率为57 mW,光信噪比达56 dB。输出激光在1 h内的波长偏移量小于0.1 nm,功率变化约0.26 dB,具有良好的稳定性。     

1.5kW全光纤线偏振激光器

报道了一台全光纤结构的1.5kW线偏振光纤激光器。激光器采用振荡器结合一级放大的主振荡功率放大器(MOPA)方案。振荡器中心波长为1080nm,工作时输出功率30 W,经放大器一级放大后实现近衍射极限输出,功率达到1.5kW,光-光效率81.5%,消光比13.8dB。这是目前线偏振光纤激光器输出功率的最高值。     

双端泵浦保偏光纤激光器

 以两台808 nm半导体激光器LD1和LD2为泵浦源,对光纤激光器双端泵浦进行了研究,获得了6.5 W的激光输出。实验分别测出了LD1和LD2半导体激光器单端泵浦和双端泵浦时的输出功率,对双端泵浦输出功率与单端泵浦功率之和进行了比较,利用双端泵浦提高了泵浦效率和输出激光功率。同时测量了输出激光的偏振度,通过计算得到双端泵浦输出激光的偏振度为0.5。     

基于多层石墨烯可饱和吸收体的被动调Q Ho∶YAG激光器

报道了2μm被动调Q的Ho∶YAG激光器,该激光器采用Tm~(3+)光纤激光器作为泵浦源,使用多层石墨烯作为可饱和吸收体。在连续波激光输出模式下,当泵浦功率为4.2 W时,获得了750 mW激光输出,输出激光中心波长为2.09μm,斜率效率为29.6%。在连续波激光器谐振腔中插入多层石墨烯可饱和吸收体并调整谐振腔,获得了脉冲激光输出。当泵浦功率为4.2 W时,获得最小脉冲宽度3.1μs、重复频率66.6 kHz的脉冲激光输出,其最大平均输出功率为170 mW,斜率效率为12.6%,光束质量因子M_x~2=1.15,M_y~2=1.12。     

国产全光纤结构激光器实现245 W高功率激光输出

 以国产掺镱光纤为增益介质,利用国产泵浦源和光纤器件,构建了主振荡功率放大（MOPA）结构的全国产大功率全光纤激光器。激光器包括10 W种子激光器和高功率放大器两部分。在注入最大泵浦功率为356 W时,获得了245 W波长1 080 nm激光的稳定输出,光-光效率为69%。激光器单次连续出光时间约30 min,功率稳定性在1%以内。目前激光器输出功率受限于泵浦功率,增加泵浦源的数目有望进一步提高输出功率。     

基于光纤光栅谐振腔的掺镱全光纤激光器设计(英文)

采用数值分析方法分析了光纤长度、后腔镜反射率等因素对激光器输出阈值泵浦功率、输出功率的影响,为全光纤激光器的优化设计提供了理论基础.在设计过程中采用光纤光栅作为光纤激光器的反馈与选频腔镜,通过锥度光纤实现了泵浦模块与掺镱双包层光纤之间的低损耗连接以及高效率的泵浦激光功率传输,成功研制了具备稳定窄化线宽激光输出的掺镱全光纤激光器.实验得到了波长峰值在1 082 .50 nm,谱线宽度0 .113 nm,最大输出功率8 .5 W,泵浦阈值功率0 .8 W,斜率效率为70 .8 %的稳定激光输出.     

包层泵浦的高功率掺铥光纤激光器

研究了一种输出功率高且光束质量好的包层泵浦的掺铥光纤激光器.当泵浦功率达到30 W时,该掺铥光纤激光器产生的最大输出功率是6.1 W,且波长在2 μm左右,斜率效率达到55.6%,产生激光的阈值是2.2 W.当输出功率为3.3 W时,测得光束质量M2X和M2Y分别为1.26和1.32.     

二极管泵浦的被动调Q与脉冲幅度混沌Nd:LaMgAl11O19全固态激光器

基于二极管泵浦Nd:LaMgAl₁₁O₁₉无序晶体激光器实现了被动调Q激光以及脉冲幅度混沌激光的输出。当泵浦功率在4.8~8.6 W范围内时,激光器运转在被动调Q状态;当泵浦功率为8.6 W时,调Q激光的平均输出功率为613 mW、重复频率为157.1 kHz、脉冲宽度为2.2μs。当泵浦功率增加到8.7~10.5 W范围内时,输出激光的脉冲幅度呈不规则随机分布现象;通过分析脉冲峰值序列的自相关曲线、相位图、功率谱、随机直方图,判定激光器运转在脉冲幅度混沌状态;当泵浦功率功率为10.5 W时,脉冲幅度混沌激光的平均输出功率为814 mW。     

Single-mode plane-polarized ytterbium-doped large-core fiber laser with 633-W continuous-wave output power

We demonstrate a cladding-pumped single-mode plane-polarized ytterbium-doped fiber laser generating 633 W of continuous-wave output power at 1.1 microm with 67% slope efficiency and a polarization extinction ratio better than 16 dB. The laser is end pumped through both fiber ends and shows no evidence of roll-over, even at the highest output power, which is limited only by the available pump power.     

Linearly-polarized Tm-doped double-clad fiber laser

We report a linearly polarized Tm doped fiber laser. The fiber laser was set up by using a piece of polarization maintaining Tm doped double clad fiber of 5 m length as gain medium and a polarization beam splitter as a polarization selector. The fiber laser was pumped by a fiber pigtailed laser diode working at 790 nm with a maximum output power of 90 W. The linearly polarized Tm laser operated at wavelength around 2030 nm. A maximum output power up to 21.9 W was achieved when the pump power was 63.27 W with a threshold of 11.92 W, a slope efficiency of about 43.7%, and a polarization extinction ratio of 92.7% (11.37 dB). In addition to the blue fluorescence, we also observed the violet fluorescence under high pump power level. The up-conversion fluorescence was considered to be attributed to the ¹ G ₄ → ³ H ₆, and ¹ D ₂ → ³ F ₄ transitions of Tm ions, respectively.     

高功率全光纤保偏主振荡功率放大型光纤激光器的实验研究

进行了全光纤保偏主振荡功率放大型光纤激光器的实验研究. 采用两级级联放大的方式, 利用纤芯为5 μupm 的小芯径双包层保偏光纤, 在最大抽运功率为88 W 时实现了67 W的1083 nm保偏激光输出, 纤芯内的激光功率密度约为3.4 W/μupm², 光-光转换效率为76%．分析结果表明, 进一步提高抽运功率有望获得更高功率的激光输出．     

Dual-wavelength high-power Yb-doped double-clad fiber laser based on a few-mode fiber Bragg grating

We report a high-power dual-wavelength Yb-doped double-clad fiber laser based on a few-mode fiber Bragg grating (FMFBG). The FMFBG was fabricated by using a piece of fiber in a length of fiber with a cutoff wavelength of 1225 nm, which supported two modes at 1060 nm. The laser was pumped by a fiber pigtailed laser diode working at 915 nm. Single-wavelength, dual-wavelength and triple-wavelength laser oscillations were observed when the fiber laser operated under different low pump powers. However, stable dual-wavelength operation was achieved at higher pump power of 3.9 W and remained unchanged until the output power reached 5.67 W under the maximum available pump power of 10.7 W. The laser wavelengths were centered at 1059.12 and 1060.80 nm with a full-width at half-maximum of 37 and 43 pm, respectively. The signal-to-noise-ratio was greater than 50 dB and the beam quality factor (M²) was about 1.9.     

100 W级全光纤化线偏振单频光纤放大器

报道了一种基于主振荡功率放大结构的全光纤化1064 mm线偏振单频光纤放大器。种子源是一个线宽约为3 kHz的单频光纤激光器。输出功率为50 mW的种子激光经两级掺Yb保偏双包层光纤(光纤纤芯直径分别为10 μm和20 μm)和一级手性耦合纤芯增益光纤放大后,最终获得了输出功率138 W、光束质量M2≤1.2、偏振消光比优于18 dB的高功率单频光纤激光输出。在脉冲调制模式下,获得了峰值功率465 W、脉宽宽度约为500 μs的线偏振单频光纤激光输出。     

All-fiber single polarized Yb-doped fiber laser with a high extinction ratio

We present an all-fiber design for a single polarization Yb-doped fiber laser with all-fiber connections spliced. Single polarization with a high extinction ratio was achieved by the design of a laser cavity consisting of a fiber Bragg grating inscribed on a single-polarization fiber as a high reflective mirror and a piece of end-cleaved single-polarization fiber as an output coupler. The fiber laser operates at 1063.25 nm with an output power of 1.7 W, an optical signal- to-noise ratio of 70 dB and a narrow bandwidth of 54 pm. The laser output has a polarization extinction ratio of 700:1 or 28 dB, and a very stable power output.     

High-power, single-mode, linearly polarized, ytterbium-doped fiber superfluorescent source

High-power operation of a single-mode, linearly polarized, broadband superfluorescent fiber source has been achieved by using a two-stage cladding-pumped fiber configuration comprising a low power, single-ended, ytterbium-doped superfluorescent fiber seed source and a high-power cladding-pumped, polarization-maintaining, large-mode-area, ytterbium-doped amplifier pumped by a high-power diode source at 976 nm. The source yielded a maximum linearly polarized output of 106 W with a slope efficiency of up to 67% with respect to the launched pump power and with a measured polarization extinction ratio of 13.5 dB. The wavelength spectrum of the superfluorescent source spanned the range continuously from ~1035 to 1100 nm, and the bandwidth (FWHM) of the emission spectrum was 21 nm. The minimum seed power required for an output power over 100 W was only 10 mW, corresponding to an effective power gain in the amplifier stage of 40 dB. Single-spatial-mode operation with a beam propagation factor (M(2))<1.1 was achieved by bending the amplifier fiber to a bend radius of ~8 cm, without a significant reduction in output power.     

高功率宽调谐范围掺Yb3+光子晶体光纤激光器

采用闪耀光栅作为色散元件,构建了前向、后向输出两种结构的可调谐掺Yb3 光子晶体光纤激光器,并对其输出特性进行了分析研究.在抽运功率5.75W时,前向输出结构实现了1050.6～1110.2 nm的连续调谐输出,光谱线宽约0.1 nm,边模抑制比大于44 dB.在调谐激光波长为1085 nm时,得到最高输出功率677 mW.结构改进的后向输出结构的可调谐输出结构在抽运功率4.43 W,调谐波长1075 nm,实现了2.21 W的功率输出,斜率效率为73%;调谐范围50.9 nm(1042.1～1093 nm),光谱线宽小于0.08 nm,边模抑制比大于50 dB.两种结构的可调谐激光器输出均为线偏振光,偏振度大于89.5%.     

国产30/600μm掺镱光纤实现4.1kW激光输出

采用化学气相沉积结合气相/液相复合掺杂方式制备30/600 μm掺镱双包层光纤,石英纤芯中的掺杂组分为Yb₂O₃, Al₂O₃,P₂O₅。基于976 nm发光二极管反向抽运方式,构建全光纤化的主控振荡器功率放大器结构对增益光纤进行测试。实验中,种子源功率为189 W,当泵浦总功率为4747 W时,激光输出功率为4120 W,放大级光光效率为85%,3 dB带宽为1.6 nm。激光器连续工作1 h,激光功率稳定在4100 W,未发生明显的功率衰退现象。