Abstract
Approximate analytic solutions for the athermal relaxation and diffusion of carriers in free-electron metals excited by ultrashort optical pulses are derived. The energy-loss time of the electrons is shown to be $\ensuremath{\sim}{\ensuremath{\tau}}_{0}^{1/3}{\ensuremath{\tau}}_{S}^{2/3},$ where ${\ensuremath{\tau}}_{0}$ and ${\ensuremath{\tau}}_{S}$ are characteristic electron-electron and electron-phonon scattering times. By evaluating the average excess energy per excitation we are able to establish an approximate criterion for the time of transition from an athermal electron distribution to a thermalized distribution. We thus demonstrate how one can calculate the evolution of the total energy and number densities of the nonequilibrium electrons at a given point in the metal, linking the athermal to the thermalized regime by interpolation. Quantitative agreement of the theory with some recent experiments on hot electrons in metals is good.
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