梯度密度成丝理论研究
宋振明, 赵晗, 林俞先, 倪晓昌. 梯度密度成丝理论研究[J]. 光学学报, 2015, 35(s1): s132002.
Song Zhenming, Zhao Han, Lin Yuxian, Ni Xiaochang. Study on Controlling the Filament by Gradient Density Method[J]. Acta Optica Sinica, 2015, 35(s1): s132002.
[1] Yamashita M, Yamane K, Morita R. Quasi-automatic phase-control technique for chirp compensation of pulses with over-one-octave bandwidth-generation of few-to mono-cycle optical pulses[J]. IEEE Journal of Select Topics in Quantum Electron, 2006, 12(2): 213-222.
[2] Yamane K, Zhang Z G, Oka K, et al.. Optical pulse compression to 3.4 fs in the monocycle region by feedback phase compensation[J]. Opt Lett, 2003, 28(22): 2258-2260.
[3] Hauri C P, Guandalini A, Eckle P, et al.. Generation of intense few-cycle laser pulses through filamentation- parameter dependence[J]. Opt Express, 2005, 13(19): 7541-7547.
[4] Couairon A, Biegert J, Hauri C P, et al.. Self-compression of ultra-short laser pulses down to one optical cycle by filamentation[J]. Journal of Modern Optics, 2006, 53(1-2): 75-85.
[5] Couairon A, Franco M, Mysyrowicz A, et al.. Pulse self-compression to the single-cycle limit by filamentation in a gas with a pressure gradient[J]. Opt Lett, 2005, 30(19): 2657-2659.
[6] Suda A, Hatayama M, Nagasaka K, et al.. Generation of sub-10-fs, 5 -mJ-optical pulses using a hollow fiber with a pressure gradient [J]. Appl Phys Lett, 2005, 86(11): 1-3.
[7] Sung J H, Park J Y, Imran T, et al.. Generation of 0.2-TW 5.5-fs optical pulses at 1 kHz using a differentially pumped hollow-fiber chirped-mirror compressor[J]. Appl Phys B, 2006, 82(1): 5-8.
[8] Song Z M, Qin Y, Zhang G X, et al.. Femtosecond pulse propagation in temperature controlled gases-filled hollow fiber[J]. Opt Commun, 2008, 281(15): 4109-4113.
[9] Song Z M, Zhang G X, Cao S Y. et al.. Simulation of femtosecond pulse propagation through hollow fiber filled with noble gases of gradient temperature[J]. Chin Phys Lett, 2008, 25(1): 129-132.
[10] 王海涛, 范承玉, 沈宏, 等. 飞秒光丝中等离子体密度时间演化特征[J]. 强激光与粒子束, 2012, 24(5): 1024-1028.
[11] 胡强林, 肖桂兰, 余晓光, 等. 超越线极化激光在e-p等离子体中传播的成丝不稳定性[J]. 强激光与粒子束, 2014, 26(1): 012005.
[12] 陈文, 范承玉, 王海涛, 等. 超短脉冲激光产生等离子体通道寿命研究[J]. 强激光与粒子束, 2013, 25(4): 813-816.
[13] Agrawal G P. Nonlinear Fiber Optics [M]. San Diego: Academic Press, 1995: 31-56.
[14] Marcatili E A J, Schmeltzer R A. Hollow metallic and dielectric wave guides for long distance optical transmission and lasers[J]. Bell Syst Tech J, 1964, 43(4): 1783-1809.
[15] Lehmeier H J, Leupacher W, Penzkofer A. Nonresonant third order hyperpolarizability of rare gases and N2 determined by third harmonic generation[J]. Opt Commun, 1985, 56(1): 67-72.
[16] Dalgarno A, Kingston A E. The refractive indices and verdet constants of the inert gases[J]. Proc R Soc London Ser A, 1960, 259(1298): 424-431.
[17] Mlejnek M, Wright E M, Moloney J V. Femtosecond pulse propagation in argon: A pressure dependence study[J]. Phys Rev E, 1998, 58(4): 4903-4910.
[18] Couairon A, Mysyrowicz A. Femtosecond filamentation in transparent media[J]. Phys Rep, 2007, 441(2): 47-189.
[19] Marburger J H. Self-focusing: Theory[J]. Prog Quant Electr, 1975, 4: 35-110.
宋振明, 赵晗, 林俞先, 倪晓昌. 梯度密度成丝理论研究[J]. 光学学报, 2015, 35(s1): s132002. Song Zhenming, Zhao Han, Lin Yuxian, Ni Xiaochang. Study on Controlling the Filament by Gradient Density Method[J]. Acta Optica Sinica, 2015, 35(s1): s132002.