Nonlinear energy absorption during optical breakdown in bulk dielectrics.

Portion of energy employed by a single, tightly focused laser pulse in various transparent dielectrics was demonstrated versus the incident energy fluence or alternatively, intensity. The measurements were conducted for both the femtosecond and nanosecond laser pulses. Moreover, the energy scattered during the long-lived breakdown process was estimated within the integrating sphere. It appeared that the recorded strongly non-linear dependence of absorptance on the energy fluence (intensity) can be well approximated by the sigmoidal Hill function. The stationary points of the absorptance curve were used to determine threshold-like values characterizing breakdown development. In this way, we defined threshold for the non-linear absorption which can be considered as an empirical laser-induced breakdown threshold (LIBT). Additionally, the fitting parameters of the experimental data substantiated the absorption character for short and long laser pulses. [ABSTRACT FROM AUTHOR]