2μm高功率连续掺铥光纤激光器研究进展
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- 论文作者:张伟 ; 张嘉阳 ; 余婷 ; 叶锡生
- 年:2016
- 作者机构:中国科学院上海光学精密机械研究所;中国科学院大学;
- 论文关键词:TDFL ; 泵浦方式 ; 高功率
- 会议召开时间:2016-12-06
- 会议录名称:2016年红外、遥感技术与应用研讨会暨交叉学科论坛论文集
- 语种:中文
- 分类号:TN248
- 学会代码:SHHH
- 会议名称:2016年红外、遥感技术与应用研讨会暨交叉学科论坛
- 会议地点:中国江苏常州
- 主办单位:上海市红外与遥感学会、上海市传感技术学会、中国科学院上海技术物理研究所
- 学会名称:上海市红外与遥感学会
- 页数:6
- 文件大小:812k
- 原文格式:D
- 会议级别:地方
摘要
掺铥光纤激光器(TDFL)具有结构紧凑、散热效果好、光束质量高等优点,而且其非线性效应阈值高,理论上量子转换效率可达200%。TDFL产生的1.7~2.1μm波段激光输出,在各领域应用广泛。本文主要介绍了铥光纤离子吸收谱和能级结构、TDFL的3种泵浦方式优缺点和高功率TDFL国内外研究进展,并展望了其未来的发展趋势。
引文
[1]Snitzer E.Optical Maser Action of Nd3+in a Barium Crown Glass[J].Physical Review Letters,1961,7(12):444-446.
[2]F P Capron,Radiation loss in glass optical waveguide[J].Appl Phys Lett.1970,17,423-425.
[3]E.Snitzer,H.Po,F.Hakimi,R.Tumminelli,and B.C.Mc Collum,Double-Clad,offset core Nd fiber laser[J].Optical Fiber Sensor,1988,1.
[4]N G Broderick,H L Offerhaus,D J Richardson,R A Sammut,J Caplen,and L Dong,Large mode area fibers for high power applications[J].Optical Fiber Technol.1999,5,185-196.
[5]Honea E C,Beach R J,Sutton S B,et al.115-W Tm:YAG diode-pumped solid-state laser.Quantum Electronics[J].IEEE Journal of.1997.33(9):1592-1600.
[6]唐玉龙.中红外固体激光器的理论和实验研究-2μm掺铥光纤激光器[D].上海:中科院上海光机所,2008.
[7]杨昆,任秋实,魏石刚等.2μm铥(Tm)激光器在生物医学中的应用.[J]激光与光屯子学进展,2005,42(9):52-56.
[8]刘沛沛,白杨,任兆玉,.2μm光纤激光器的研究进展[J].红外与激光工程2009,38(1):45-49
[9]周俊,董淑福,周义建,陈婉,陈国夫.2μm光纤激光器的研究进展[J].激光杂志,2008,29(3):1-3
[10]P F Moulton.Power scaling of high-efficiency Tm-doped fiber lasers[C].SPRC 2008 Annual Symposium,America,17 Sept.2008.
[11]Richards B D O,Shen xiao xiong,Jha A.Spectroscopy of Tm-Ho co-doped tellurite glass for mid-IR fiber lasers in 1.8~2.2μm[C].Pro.SPIE,2005,5984:1-7.
[12]王郡婕.2μm高功率掺铥光纤激光器研究进展[J].激光杂志,2015 36(8):5-7.
[13]杜戈果,刘东峰,王贤华等.掺铥(Tm3+)光纤激光器[J].激光与红外,1998,4:210-214
[14]Hanna D C,Jauncey I M,Percival R M,et al.Continuous-wave oscillation of a monomode thulium-doped fiber laser[J].Electronics letters,1988,24(19):1222-1223.
[15]Hanna D C,Perry I R,Lincoln J R,et al.A 1-Watt thulium-doped cw fiber laser operating at 2μm[J].Optics Communications,1990,80(1):52-56.
[16]Jackson S D,King T A.High-power diode-cladding-pumped Tm-doped silica fiber laser[J].Optics letters,1998,23(18):1462-1464.
[17]G Frith,D G Lancaster,and S D Jackson,85W Tm-doped silica fiber laser[J].Electron.Lett.2005,41,687-688.
[18]M Meleshkevich,N Platonov,D Gapontsev,A Drozhzhin,V Sergeev,and V Gapontsev,415W single-mode CW thulium fiber laser in all-fiber format[C].in Conference on Lasers and Electro-Optics,CLEO Europe,2007.
[19]P F Moulton,G A Rines,E V,Slobodtchikov,et al.Tm-doped fiber lasers:fundamentals and power scaling[J].Selected Topics in Quantum Electronics.2009,15(1):85~92
[20]Goodno G D,Book L D,Rothenberg J E.Low-phase-noise,single-frequency,single-mode 608W thulium fiber amplifier[J].Optics letters,2009,34(8):1204-1206.
[21]T Ehrenreich,R Leveille,I Majid,et al.1-k W,all-glass Tm fiber laser[C].Proc.SPIE.2010,7580,16.
[22]Du Ge-Guo,Li Da-Jun,Zhang Min et al.LD-pumped 6W Tm-doped silica double-cladding fiber laser[J].Chin.Phys.Lett.2008,25,957-959.
[23]Yulong Tang,Yong Yang,and Jianqiu Xu,High-power Tm-doped fiber lasers tuned by a variable reflective output coupler[J].Res.Lett.Optics,2008,919403.
[24]Zhang Y J,Song S F,Tian Y,et al.Ld-clad-pumped all-fiber Tm3+-doped silica fiber laser[J].Chin Phys Lett,2009,26(8),084211-1-3.
[25]唐玉龙,徐剑秋,陈伟等.150-W Tm3+-Doped Fiber Lasers With Different Cooling Techniques and Output Couplings[J].中国物理快报:英文版,2010,27(010):114-116.
[26]Wang Xiong,Zhou Pu,Wang Xiaolin,et al.102W monolithic single frequency Tm-doped fiber MOPA[J].Optics Express,2013,21(26):32386-32392
[27]Liu Jiang,Shi Hongxing,Liu Kun,et al.210W single-frequency,single-polarization,thulium-doped all-fiber MOPA[J].Optics Express,2014,22(11):13572-13578.
[28]Jiang Liu,Hongxing Shi,Pu Wang,et al.High-power narrow-linewidth thulium-doped all-fiber MOPA[C].Conference on Lasers and Electro-Optics,Pacific Rim 2015
[29]Ke Yin,Jing Hou,et al.300 W-level,wavelength-widely-tunable,all-fiber integrated thulium-doped fiber laser[J].Optics Express,2016,24(10):11085-11090
[2]F P Capron,Radiation loss in glass optical waveguide[J].Appl Phys Lett.1970,17,423-425.
[3]E.Snitzer,H.Po,F.Hakimi,R.Tumminelli,and B.C.Mc Collum,Double-Clad,offset core Nd fiber laser[J].Optical Fiber Sensor,1988,1.
[4]N G Broderick,H L Offerhaus,D J Richardson,R A Sammut,J Caplen,and L Dong,Large mode area fibers for high power applications[J].Optical Fiber Technol.1999,5,185-196.
[5]Honea E C,Beach R J,Sutton S B,et al.115-W Tm:YAG diode-pumped solid-state laser.Quantum Electronics[J].IEEE Journal of.1997.33(9):1592-1600.
[6]唐玉龙.中红外固体激光器的理论和实验研究-2μm掺铥光纤激光器[D].上海:中科院上海光机所,2008.
[7]杨昆,任秋实,魏石刚等.2μm铥(Tm)激光器在生物医学中的应用.[J]激光与光屯子学进展,2005,42(9):52-56.
[8]刘沛沛,白杨,任兆玉,.2μm光纤激光器的研究进展[J].红外与激光工程2009,38(1):45-49
[9]周俊,董淑福,周义建,陈婉,陈国夫.2μm光纤激光器的研究进展[J].激光杂志,2008,29(3):1-3
[10]P F Moulton.Power scaling of high-efficiency Tm-doped fiber lasers[C].SPRC 2008 Annual Symposium,America,17 Sept.2008.
[11]Richards B D O,Shen xiao xiong,Jha A.Spectroscopy of Tm-Ho co-doped tellurite glass for mid-IR fiber lasers in 1.8~2.2μm[C].Pro.SPIE,2005,5984:1-7.
[12]王郡婕.2μm高功率掺铥光纤激光器研究进展[J].激光杂志,2015 36(8):5-7.
[13]杜戈果,刘东峰,王贤华等.掺铥(Tm3+)光纤激光器[J].激光与红外,1998,4:210-214
[14]Hanna D C,Jauncey I M,Percival R M,et al.Continuous-wave oscillation of a monomode thulium-doped fiber laser[J].Electronics letters,1988,24(19):1222-1223.
[15]Hanna D C,Perry I R,Lincoln J R,et al.A 1-Watt thulium-doped cw fiber laser operating at 2μm[J].Optics Communications,1990,80(1):52-56.
[16]Jackson S D,King T A.High-power diode-cladding-pumped Tm-doped silica fiber laser[J].Optics letters,1998,23(18):1462-1464.
[17]G Frith,D G Lancaster,and S D Jackson,85W Tm-doped silica fiber laser[J].Electron.Lett.2005,41,687-688.
[18]M Meleshkevich,N Platonov,D Gapontsev,A Drozhzhin,V Sergeev,and V Gapontsev,415W single-mode CW thulium fiber laser in all-fiber format[C].in Conference on Lasers and Electro-Optics,CLEO Europe,2007.
[19]P F Moulton,G A Rines,E V,Slobodtchikov,et al.Tm-doped fiber lasers:fundamentals and power scaling[J].Selected Topics in Quantum Electronics.2009,15(1):85~92
[20]Goodno G D,Book L D,Rothenberg J E.Low-phase-noise,single-frequency,single-mode 608W thulium fiber amplifier[J].Optics letters,2009,34(8):1204-1206.
[21]T Ehrenreich,R Leveille,I Majid,et al.1-k W,all-glass Tm fiber laser[C].Proc.SPIE.2010,7580,16.
[22]Du Ge-Guo,Li Da-Jun,Zhang Min et al.LD-pumped 6W Tm-doped silica double-cladding fiber laser[J].Chin.Phys.Lett.2008,25,957-959.
[23]Yulong Tang,Yong Yang,and Jianqiu Xu,High-power Tm-doped fiber lasers tuned by a variable reflective output coupler[J].Res.Lett.Optics,2008,919403.
[24]Zhang Y J,Song S F,Tian Y,et al.Ld-clad-pumped all-fiber Tm3+-doped silica fiber laser[J].Chin Phys Lett,2009,26(8),084211-1-3.
[25]唐玉龙,徐剑秋,陈伟等.150-W Tm3+-Doped Fiber Lasers With Different Cooling Techniques and Output Couplings[J].中国物理快报:英文版,2010,27(010):114-116.
[26]Wang Xiong,Zhou Pu,Wang Xiaolin,et al.102W monolithic single frequency Tm-doped fiber MOPA[J].Optics Express,2013,21(26):32386-32392
[27]Liu Jiang,Shi Hongxing,Liu Kun,et al.210W single-frequency,single-polarization,thulium-doped all-fiber MOPA[J].Optics Express,2014,22(11):13572-13578.
[28]Jiang Liu,Hongxing Shi,Pu Wang,et al.High-power narrow-linewidth thulium-doped all-fiber MOPA[C].Conference on Lasers and Electro-Optics,Pacific Rim 2015
[29]Ke Yin,Jing Hou,et al.300 W-level,wavelength-widely-tunable,all-fiber integrated thulium-doped fiber laser[J].Optics Express,2016,24(10):11085-11090