[2] Liu Peipei, Bai Yang, Ren Zhaoyu et al.. Research and progress of 2 μm fiber lasers[J]. Infrared and Laser Engineering, 2009, 38(1): 45~49
[3] Zhou Jun, Dong Shufu, Zhou Yijian et al.. Researching progress of 2 μm optical fiber laser[J]. Laser Journal, 2008, 29(3): 1~3
[4] Li Dajun, Du Geguo. The recent research progress of Tm3+-doped fiber lasers[J]. Laser Technology, 2007, 31(5): 540~543
[5] A. Carter, J. Galipeau, B. Samson et al.. Recent progress in the development of high power all-fiber lasers and amplifiers[C]. ILOPE, 2009
[6] Thomas Ehrenreich, Ryan Leveille, Imtiaz Majid et al.. 1-kW, all-glass Tmfiber laser[C]. SPIE, 2010, 7580: 16
[7] Evgueni Slobodtchikov, Peter F. Moulton. Efficient, high-power, Tm-doped silica fiber laser[C]. OSA/ASSP, 2007
[8] Peter F. Moulton, Glen A. Rines, Evgueni V. Slobodtchikov et al.. Tm-doped fiber lasers: fundamentals and power scaling[J]. IEEE J. Sel. Top. Quantum Electron., 2009, 15(1): 85~92
[9] Jihong Geng, Jianfeng Wu, Shibin Jiang et al.. Efficient operation of diode-pumped single frequency thulium-doped fiber lasers near 2 μm[J]. Opt. Lett., 2007, 32(4): 355~357
[10] M. Meleshkevich, N. Platonov, D. Gapontsev et al.. 415 W single-mode CW thulium fiber laser in all-fiber format[C], IEEE Xplore. 2009. 11
[11] D. Gapontesv. 20 W single-frequency fiber laser operating at 1.93 μm[C]. IEEE Xplore. 2009. 11
[12] Z. Zhang, D. Y. Shen, A. J. Boyland et al.. High-power Tm-doped fiber distributed-feedback laser at 1943 nm[J]. Opt. Lett., 2008, 33(18): 2059~2061
[13] Z. Zhang, A. J. Boyland, J. K. Sahu et al.. Single-frequency Tm-doped fiber master-oscillator power amplifier with 10 W linearly-polarized output at 1943 nm[C]. OSA/CLEO/IQEC, 2007
[14] L. Pearson, J. W. Kim, Z. Zhang et al.. High-power single-frequency thulium-doped fiber master-oscillator power-amplifier at 1943 nm[C]. OSA/CLEO/IQEC 2009 CThN1.pdf
[15] Jihong Geng, Qing Wang, Tao Luo et al.. Single-frequency narrow-linewidth Tm-doped fiber laser using silicate glass fiber[J]. Opt. Lett., 2009, 34(22): 3493~3495
[16] T. Ehrenreich, V. Khitrov, G. Frith et al.. High efficiency 20 W single frequency PM fiber amplifier at 2037 nm[C]. 2009 OSA/ASSP 2009 WB2
[17] Gregory D. Goodno, Lewis D. Book, Joshua E. Rothenberg. Low-phase-noise, single-frequency, single-mode 608 W thulium fiber amplifier[J]. Opt. Lett., 2009, 34(8): 1204~1206
[18] L. Pearson, D. Y. Shen, J. K. Sahu et al.. High-power widely-tunable thulium-doped fiber master-oscillator power-amplifier around 2 μm[C]. OSA/CLEO/IQEC 2008
[19] T. S. McComb, L. Shah, R. A. Sims et al.. High power, tunable thulium fiber laser system for atmosphere propagation experiments[C]. OSA/CLEO/IQEC 2009
[20] www.nufern.com
[21] www.ipgphotonics.com
[22] Marc Eichhorn, Stuart D. Jackson. High-pulse-energy actively Q-switched Tm3+-doped silica 2 μm fiber laser pumped at 792 nm[J]. Opt. Lett., 2007, 32(19): 2780~2782
[23] G. Frith, T. McComb, B. Samson et al.. Frequency doubling of Tm-doped fiber lasers for efficient 950 nm generation[C]. 2009 OSA/ASSP 2009 WB5
[24] L. Shah, C. C. Willis, T. S. McComb et al.. High-energy Q-switched Tm3+-doped polarization maintaining silica fiber laser[C]. SPIE, 2010, 7580: 758003
[25] Jihong Geng, Qing Wang, Jake Smith et al.. All-fiber Q-switched single-frequency Tm-doped laser near 2 μm[J]. Opt. Lett., 2009, 34(23): 3713~3715
[26] Min Jiang, Parviz Tayebati. Stable 10 ns, kilowatt peak-power pulse generation from a gain-switched Tm-doped fiber laser[J]. Opt. Lett., 2007, 32(13): 1797~1799
[27] Daniel Creeden, Peter Budni, Peter A. Ketteridge et al.. High power pulse amplification in Tm-doped fiber[C]. OSA / CLEO/QELS 2008
[28] Daniel Creeden, Peter A. Ketteridge, Peter Budni et al.. Multi-watt Mid-IR fiber-pumped OPO[C]. OSA/CLEO/QELS 2008
[29] Max A. Solodyankin, Elena D. Obraztsova, Anatoly S. Lobach et al.. Mode-locked 1.93 μm thulium fiber laser with a carbon nanotube absorber[J]. Opt. Lett., 2008, 33(12): 1336~1338
[30] Q. Wang, J. Geng, T. Luo et al.. Mode-locked 2 μm laser with highly thulium-doped silicate fiber[J]. Opt. Lett., 2009, 34(23): 3616~3618
[31] Chunting Wu, Youlun Yu, Yufeng Li et al.. Diode-pumped TmLuAG laser at room temperature[J]. Chin. Opt. Lett., 2008, 6(6): 415~416
[32] Chunting Wu, Youlun Ju, Yufeng Li et al.. Diode-end-pumped composite TmYAG rod with undoped ends at room temperature[J]. Chin. Opt. Lett., 2008, 6(8): 594~596
[33] Y. J. Zhang, B. Q. Yao, S. F. Song et al.. All-fiber Tm-doped double-clad fiber laser with multi-mode FBG as cavity[J]. Laser Physics, 2009, 19(5): 1006~1008
[34] Y. Zhang, T. Jing. All-fiber clad-pumped Tm3+-doped fiber amplifier using high power fiber combiner[J]. Laser Physics, 2009, 19(12): 2197~2199
[35] Y. Zhang, Ch. Song, W. Wang. Multi-peak output Tm-doped silica fiber laser based on femtosecond written multi-mode fiber Bragg grating[J]. Laser Physics, 2009, 19(8): 1854~1857
[36] Geguo Du, Dajun Li, Min Zhang et al.. LD-pumped 6 W CW Tm3+-doped ailica double-cladding fibre laser[J]. Chin. Phys. Lett., 2008, 25(3): 957~959
[37] Yunjun Zhang, Shifei Song, Yi Tian et al.. LD-clad-pumped all-fiber Tm3+-doped silica fiber laser[J]. Chin. Phys. Lett., 2009, 26(8): 084211
[38] Yulong Tang, Yong Yang, Xiaojin Cheng et al.. Short Tm3+-doped fiber lasers with watt-level output near 2 μm[J]. Chin. Opt. Lett., 2008, 6(1): 44~46