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A dissipative-soliton mode locked laser based on Yb-doped single polarization large-mode-area photonic crystal fiber is demonstrated. The dissipative soliton dynamics is explored by numerical simulation. Compared with all normal dispersion fiber lasers, there are more pulse shaping mechanisms in a dissipative-soliton fiber laser, including the nonlinear absorption of SESAM, spectrum filtering of the chirped pulse and gain dispersion, which results in robust and stable operation. Among them, spectrum filtering plays a dominant role in mode-locking, it shapes pulse both in frequency domain and time domain and keeps the pulse duration below 1 ps in the cavity. For the first time, sub-1 ps pulse is directly generated in a dispersion compensation free cavity. The fiber laser directly generates 777 fs pulse at 1 W average power at a repetition rate of 514 MHz, corresponding to a single pulse energy of 20 nJ.
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Keywords:
- photonic crystal fiber /
- large-mode-area fiber /
- fiber laser /
- dissipative-soliton mode locking
[1] [1]Zhang S M, Lu F Y, Gong Y D, Yang X F 2007 Chin. Phys. 16 1986
[2] [2]Tamura K, Nelson L E, Haus H A, Ippen E P 1994 Appl. Phys. Lett. 64 149
[3] [3]Nelson L E, Fleischer S B, Lenz G, Ippen E P 1996 Opt. Lett. 21 1759
[4] [4]Song Y J, Hu M L, Liu Q W, Li J Y, Chen W, Chai L, Wang Q Y 2008 Acta Phys. Sin.57 5045 (in Chinese)[宋有建、胡明列、刘庆文、李进延、陈伟、柴路、王清月 2008 57 5045]
[5] [5]Limpert J, Liem A, Reich M, Schreiber T, Nolte S, Zellmer H, Tünnermann A, Broeng J, Petersson A, Jakobsen C 2004 Opt. Express. 12 1313
[6] [6]Ortac B, Limpert J, Tümmermann A 2007 Opt. Lett. 32 2149
[7] [7]Song Y J, Hu M L, Wang C L, Tian Z, Xing Q R, Chai L, Wang Q Y 2008 IEEE Photo. Tech. Lett. 20 1088
[8] [8]Chong A, Buckley J, Renninger W, Wise F 2006 Opt. Express. 14 10095
[9] [9]Ortac B, Schmidt O, Schreiber T, Limpert J, Tümmermann A, Hideur A 2007 Opt. Express. 15 10725
[10] ]Song Y J, Hu M L, Zhang C, Chai L, Wang Q Y 2008 Chin. Sci. Bull. 53 3741
[11] ]Renninger W H, Chong A, Wise F W 2008 Phys. Rev. A 77 023814
[12] ]Liu X M, Wang L R, Li X H, Sun H B, Lin A X, Lu K Q, Wang Y S, Zhao W 2009 Opt. Express. 17 8506
[13] ]Kieu K, Renninger W H, Chong A, Wise F W 2009 Opt. Lett. 34 593
[14] ]Liu B W, Hu M L, Song Y J, Chai L, and Wang C Y 2008 Acta Phys. Sin. 57 6921 (in Chinese)[刘博文、 胡明列、 宋有建、 柴路、 王清月 2008 57 6921]
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[1] [1]Zhang S M, Lu F Y, Gong Y D, Yang X F 2007 Chin. Phys. 16 1986
[2] [2]Tamura K, Nelson L E, Haus H A, Ippen E P 1994 Appl. Phys. Lett. 64 149
[3] [3]Nelson L E, Fleischer S B, Lenz G, Ippen E P 1996 Opt. Lett. 21 1759
[4] [4]Song Y J, Hu M L, Liu Q W, Li J Y, Chen W, Chai L, Wang Q Y 2008 Acta Phys. Sin.57 5045 (in Chinese)[宋有建、胡明列、刘庆文、李进延、陈伟、柴路、王清月 2008 57 5045]
[5] [5]Limpert J, Liem A, Reich M, Schreiber T, Nolte S, Zellmer H, Tünnermann A, Broeng J, Petersson A, Jakobsen C 2004 Opt. Express. 12 1313
[6] [6]Ortac B, Limpert J, Tümmermann A 2007 Opt. Lett. 32 2149
[7] [7]Song Y J, Hu M L, Wang C L, Tian Z, Xing Q R, Chai L, Wang Q Y 2008 IEEE Photo. Tech. Lett. 20 1088
[8] [8]Chong A, Buckley J, Renninger W, Wise F 2006 Opt. Express. 14 10095
[9] [9]Ortac B, Schmidt O, Schreiber T, Limpert J, Tümmermann A, Hideur A 2007 Opt. Express. 15 10725
[10] ]Song Y J, Hu M L, Zhang C, Chai L, Wang Q Y 2008 Chin. Sci. Bull. 53 3741
[11] ]Renninger W H, Chong A, Wise F W 2008 Phys. Rev. A 77 023814
[12] ]Liu X M, Wang L R, Li X H, Sun H B, Lin A X, Lu K Q, Wang Y S, Zhao W 2009 Opt. Express. 17 8506
[13] ]Kieu K, Renninger W H, Chong A, Wise F W 2009 Opt. Lett. 34 593
[14] ]Liu B W, Hu M L, Song Y J, Chai L, and Wang C Y 2008 Acta Phys. Sin. 57 6921 (in Chinese)[刘博文、 胡明列、 宋有建、 柴路、 王清月 2008 57 6921]
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