Sun Quan, Asahi Hidenori, Nishijima Yoshiaki, Murazawa Naoki, Ueno Kosei, Misawa Hiroaki
Research Institute for Electronic Science, Hokkaido University, Sapporo 001-0021, Japan.
Opt Express. 2010 Nov 22;18(24):24495-503. doi: 10.1364/OE.18.024495.
The nonlinear propagation of a single focused femtosecond laser pulse in fused silica has been investigated both experimentally and by numerical simulations. In particular, the filamentation behavior was systematically studied by varying pulse duration. At low pulse energy, the peak plasma density inside the filament first increases to a maximum value with increasing pulse duration and then begins to decrease. At relatively high pulse energy, denser plasma can be induced around the geometrical focus with a certain longer pulse duration, where the peak power is already below the self-focusing critical power and no filament is formed. This pulse duration dependent behavior can be explained by different ionization mechanisms.
对单束聚焦飞秒激光脉冲在熔融石英中的非线性传播进行了实验研究和数值模拟。特别地,通过改变脉冲持续时间系统地研究了丝状化行为。在低脉冲能量下,细丝内的峰值等离子体密度首先随着脉冲持续时间的增加而增加到最大值,然后开始下降。在相对较高的脉冲能量下,对于一定较长的脉冲持续时间,可以在几何焦点周围诱导出更密集的等离子体,此时峰值功率已经低于自聚焦临界功率,不会形成细丝。这种与脉冲持续时间相关的行为可以用不同的电离机制来解释。