基于线型腔结构实现中心波长约1 945 nm、功率150 m W的连续激光输出,采用3级主振荡功率放大(master oscillator power amplifier,MOPA)结构,实现123 W的掺铥激光输出,斜率效率为59.1%.搭建基于调制半导体激光器,输出波长为1 550 nm的...基于线型腔结构实现中心波长约1 945 nm、功率150 m W的连续激光输出,采用3级主振荡功率放大(master oscillator power amplifier,MOPA)结构,实现123 W的掺铥激光输出,斜率效率为59.1%.搭建基于调制半导体激光器,输出波长为1 550 nm的铒镱共掺光纤放大器,实现平均功率1.2 W、脉宽50 ns、重复频率200 k Hz的脉冲激光输出.将该铒镱共掺光纤放大器作为泵浦源,采用线型腔结构抽运掺铥光纤,实现中心波长约为1 945 nm的增益调制脉冲激光输出,重复频率为100 k Hz,脉宽约为800ns.采用3级MOPA结构对此增益调制掺铥脉冲光纤激光器进行功率放大,实现平均功率115 W、单脉冲能量1.15 m J的激光输出,且放大过程中无非线性效应产生.展开更多
In our previous study, metals have been used as absorbers in the clear plastic laser transmission welding. The effects of metal thermal conductivity on the welding quality are investigated in the present work. Four me...In our previous study, metals have been used as absorbers in the clear plastic laser transmission welding. The effects of metal thermal conductivity on the welding quality are investigated in the present work. Four metals with distinctly different thermal conductivities, i.e., titanium, nickel, molybdenum, and copper, are selected as light absorbers. The lap welding is conducted with an 808 nm diode laser and simulation experiments are also conducted. Nickel electroplating test is carried out to minimize the side-effects from different light absorptivities of different metals. The results show that the welding with an absorber of higher thermal conductivity can accommodate higher laser input power before smoking, which produces a wider and stronger welding seam.The positive role of the higher thermal conductivity can be attributed to the fact that a desirable thermal field distribution for the molecular diffusion and entanglement is produced from the case with a high thermal conductivity.展开更多
A stable noise-like(NL)mode-locked Tm-doped fiber laser(TDFL)relying on a nonlinear optical loop mirror(NOLM)was experimentally presented.Different from the previous NL mode-locked TDFL with NOLM,the entire polarizati...A stable noise-like(NL)mode-locked Tm-doped fiber laser(TDFL)relying on a nonlinear optical loop mirror(NOLM)was experimentally presented.Different from the previous NL mode-locked TDFL with NOLM,the entire polarization-maintaining(PM)fiber construction was utilized in our laser cavity,which makes the oscillator have a better resistance to environmental perturbations.The robust TDFL can deliver stable bound-state NL pulses with a pulse envelope tunable from〜14.1 ns to〜23.6 ns and maximum pulse energy of〜40.3 nj at a repetition rate of〜980.6 kHz.Meanwhile,the all-PM fiber laser shows good power stability[less than〜0.7%)and repeatability.展开更多
Supercontinuum generation(SC) of more than one octave spectrum spanning covering from 400 nm to 820 nm was achieved by pumping a piece of aluminum nitride(AIN) single crystal using a nanosecond 355 nm ultraviolet lase...Supercontinuum generation(SC) of more than one octave spectrum spanning covering from 400 nm to 820 nm was achieved by pumping a piece of aluminum nitride(AIN) single crystal using a nanosecond 355 nm ultraviolet laser. The AlN with a thickness of ~0.8 mm was grown by an optimized physical vapor transport technique and polished with solidification technology. Compared to previously reported ones, the achieved visible SC exhibited the broadest spectrum spanning from bulk materials pumped by a nanosecond pulse laser. The visible supercontinuum in Al N presents new opportunities for bulk material-based white light SC and may find more potential applications beyond typical applications in integrated semiconductive photoelectronic devices.展开更多
文摘基于线型腔结构实现中心波长约1 945 nm、功率150 m W的连续激光输出,采用3级主振荡功率放大(master oscillator power amplifier,MOPA)结构,实现123 W的掺铥激光输出,斜率效率为59.1%.搭建基于调制半导体激光器,输出波长为1 550 nm的铒镱共掺光纤放大器,实现平均功率1.2 W、脉宽50 ns、重复频率200 k Hz的脉冲激光输出.将该铒镱共掺光纤放大器作为泵浦源,采用线型腔结构抽运掺铥光纤,实现中心波长约为1 945 nm的增益调制脉冲激光输出,重复频率为100 k Hz,脉宽约为800ns.采用3级MOPA结构对此增益调制掺铥脉冲光纤激光器进行功率放大,实现平均功率115 W、单脉冲能量1.15 m J的激光输出,且放大过程中无非线性效应产生.
基金Supported by the National Key R&D Program of China under Grant No 2016YFA0401100the National Natural Science Foundation of China under Grant No 61575129the National High-Technology Research and Development Program of China under Grant No 2015AA021102
文摘In our previous study, metals have been used as absorbers in the clear plastic laser transmission welding. The effects of metal thermal conductivity on the welding quality are investigated in the present work. Four metals with distinctly different thermal conductivities, i.e., titanium, nickel, molybdenum, and copper, are selected as light absorbers. The lap welding is conducted with an 808 nm diode laser and simulation experiments are also conducted. Nickel electroplating test is carried out to minimize the side-effects from different light absorptivities of different metals. The results show that the welding with an absorber of higher thermal conductivity can accommodate higher laser input power before smoking, which produces a wider and stronger welding seam.The positive role of the higher thermal conductivity can be attributed to the fact that a desirable thermal field distribution for the molecular diffusion and entanglement is produced from the case with a high thermal conductivity.
基金Supported by the National Natural Science Foundation of China under Grant Nos 61275144 and 61308049, the PhD Start-up Fund of Natural Science Foundation of Guangdong Province under Grant Nos S2012040007242 and S2013040012496, the Science and Technology Project of Shenzhen City under Grant Nos JCYJ20120613110637373, JCYJ20130329142022715 and JC201105170655A, the Improvement and Development Project of Shenzhen Key Lab under Grant No ZDSY20120612094924467, and the Natural Science Foundation of Shenzhen University under Grant No 201203.
基金Supported by the National Natural Science Foundation of China under Grant No 61275144the Innovative Research and Development Project of Nanshan District under Grant No KC2013JSCX0013A+1 种基金the Shenzhen Science and Technology Innovation Projects under Grant No JCYJ20150324140036862the Funding from Shenzhen University under Grant No 00008355
基金supported by the National Natural Science Foundation of China (NSFC) (No. 61905146)the China Postdoctoral Science Foundation (No. 2020M682864)the Shenzhen Key Project for Technology Development (Nos. JSGG20190819175801678 and JSGG20191129105838333)
文摘A stable noise-like(NL)mode-locked Tm-doped fiber laser(TDFL)relying on a nonlinear optical loop mirror(NOLM)was experimentally presented.Different from the previous NL mode-locked TDFL with NOLM,the entire polarization-maintaining(PM)fiber construction was utilized in our laser cavity,which makes the oscillator have a better resistance to environmental perturbations.The robust TDFL can deliver stable bound-state NL pulses with a pulse envelope tunable from〜14.1 ns to〜23.6 ns and maximum pulse energy of〜40.3 nj at a repetition rate of〜980.6 kHz.Meanwhile,the all-PM fiber laser shows good power stability[less than〜0.7%)and repeatability.
基金supported by the National Natural Science Foundation of China(NSFC)(Nos.61575129 and 11447029)the Science&Technology Innovation Committee Foundation of Shenzhen(No.JCYJ20160328144942069)
文摘Supercontinuum generation(SC) of more than one octave spectrum spanning covering from 400 nm to 820 nm was achieved by pumping a piece of aluminum nitride(AIN) single crystal using a nanosecond 355 nm ultraviolet laser. The AlN with a thickness of ~0.8 mm was grown by an optimized physical vapor transport technique and polished with solidification technology. Compared to previously reported ones, the achieved visible SC exhibited the broadest spectrum spanning from bulk materials pumped by a nanosecond pulse laser. The visible supercontinuum in Al N presents new opportunities for bulk material-based white light SC and may find more potential applications beyond typical applications in integrated semiconductive photoelectronic devices.