Dispersive mirrors for high third-order dispersion compensation in femtosecond amplification fiber laser system
详细信息 查看全文
- 作者:H. L. Niu (1)
W. D. Shen (1) adongszju@hotmail.com
C. S. Li (1)
Y. G. Zhang (1)
C. Xie (2)
P. Yu (1)
W. J. Yuan (1)
B. W. Liu (2)
M. L. Hu (2)
Q. Y. Wang (2)
X. Liu (1) - 刊名:Applied Physics B: Lasers and Optics
- 出版年:2012
- 出版时间:September 2012
- 年:2012
- 卷:108
- 期:3
- 页码:609-614
- 全文大小:515.3 KB
- 参考文献:1. R. Szip枚cs, K. Ferencz, C. Splielmann, F. Krausz, Opt. Lett. 19, 201 (1994)
2. A.V. Tikhonravov, M.K. Trubetskov, G.W. DeBell, Appl. Opt. 35, 5493 (1996)
3. F.X. K盲rtner, N. Matuschek, T. Schibli, U. Keller, H.A. Haus, C. Heine, R. Morf, V. Scheuer, M. Tilsch, T. Tschudi, Opt. Lett. 22, 831 (1997)
4. N. Matuschek, L. Gallmann, D.H. Sutter, G. Steinmeyer, U. Keller, Appl. Phys. B 71, 509 (2000)
5. B. Golubovic, R.R. Austin, M.K. Steiner-Shepard, M.K. Reed, S.A. Diddams, D.J. Jones, A.G. Van Engen, Opt. Lett. 25, 275 (2000)
6. G. Tempea, V. Yakovlev, B. Bacovic, F. Krausz, K. Ferencz, J. Opt. Soc. Am. B 18, 1747 (2001)
7. F.X. K盲rtner, U. Morgner, T. Schibli, J.G. Fujimoto, E.P. Ippen, V. Scheuer, G. Angelow, T. Tschudi, J. Opt. Soc. Am. B 18, 882 (2001)
8. G. Steinmeyer, Opt. Express 11, 2385 (2003)
9. A.V. Tikhonravov, M.K. Trubetskov, T.V. Amotchkina, M.A. Kokarev, SPIE J. 5250, 312 (2004)
10. P. Dombi, V.S. Yakovlev, K. OR17;Keeffe, T. Fuji, M. Lezius, G. Tempea, Opt. Express 13, 10888 (2005)
11. G. Steinmeyer, Appl. Opt. 45, 1484 (2006)
12. V. Pervak, V. Tikhonravov, M.K. Trubetskov, S. Naumov, F. Krausz, A. Apolonski, Appl. Phys. B 87, 5 (2007)
13. V. Pervak, F. Krausz, A. Apolonski, Optim. Lett. 32, 1183 (2007)
14. V. Pervak, C. Teisset, A. Sugita, S. Naumov, F. Krausz, A. Apolonski, Opt. Express 16, 10220 (2008)
15. V. Pervak, I. Ahmad, J. Fulop, M.K. Trubetskov, A.V. Tikhonravov, Opt. Express 17, 2207 (2009)
16. C.A. Rivera, S.E. Bradforth, G. Tempea, Opt. Express 18, 18615 (2010)
17. V. Pervak, M.K. Trubetskov, A.V. Tikhonravov, Opt. Express 19, 2371 (2011)
18. Layertec optical coating optics, LAYERTEC catalogR12;femtosecond laser, 62-63 (2009), http://www.layertec.com/en/downloads/index
19. J. Limpert, T. Schreiber, T. Clausnitzer, K. Z枚llner, H.J. Fuchs, E.B. Kley, H. Zellmer, A. T眉nnermann, Opt. Express 10, 628 (2002)
20. Y. Zaouter, D.N. Papadopoulos, M. Hanna, F. Druon, E. Cormier, P. Georges, Opt. Express 15, 9372 (2007)
21. S. Kane, J. Squier, J. Opt. Soc. Am. B 14, 661 (1997)
22. M.E. Fermann, M.L. Stock, A. Galvanauskas, G.C. Cho, B.C. Thomsen, Adv. Solid-State Lasers 50, 355 (2001)
23. L. Shah, Z.L. Liu, I. Hartl, G. Imeshev, G.C. Cho, M.E. Fermann, Opt. Express 13, 4717 (2005)
24. F. Gires, P. Tournois, C. R. Acad. Sci. Paris 258, 6112 (1964)
25. H.A. Macleod, Thin-Film Optical Filters (Institute of Physics Publishing, Bristol and Philadelphia, 2001)
26. J. Kuhl, J. Heppner, IEEE Trans. Quantum Electron. 22, 182 (1986)
27. B.W. Liu, M.L. Hu, X.H. Fang, Y.Z. Wu, Y.J. Song, L. Chai, C.Y. Wang, A.M. Zheltikov, Laser Phys. Lett. 6, 44 (2009)
28. Z. Luo, S. Zhang, W.-D. Shen, C. Xia, Q. Ma, X. Liu, Y. Zhang, Appl. Opt. 50, c239 (2011) - 作者单位:1. State Key Laboratory of Modern Optical Instrumentation, Zhejiang University, Hangzhou, 310027 China2. Ultrafast laser Laboratory, Key Laboratory of Optoelectronics Information and Technical Science, College of Precision Instrument and Optoelectronics Engineering, Tianjin University, Tianjin, 300072 China
- ISSN:1432-0649
文摘
The dispersive mirrors with a third order dispersion (TOD) of about −10000 fs3 at the wavelength of 1040 nm and a compensation bandwidth of 20 nm are designed and fabricated with ion beam sputtering (IBS) technique. A good agreement between the measured and calculated group delay dispersion (GDD) and TOD of the mirror is achieved. These mirrors are employed in a Yb-doped femtosecond nonlinear amplification fiber laser system to compensate the residual TOD in the system. We show that after TOD compensation, the system outputs 44 fs laser pulses with little wing at 26.6 W output average power and 531 nJ pulse energy, corresponding to 10.8 MW peak power.