Femtosecond investigation of electron thermalization in gold
Electron-electron and electron-phonon thermalization processes are investigated in gold
films using a high-sensitivity multiple-wavelength femtosecond pump-probe technique. A
nonequilibrium electron distribution is excited by free-carrier absorption of an infrared
femtosecond pulse and its relaxation dynamics followed by measuring the transient
reflectivity and transmissivity with a visible probe pulse. Measurements performed in a thin
gold film in the very low perturbation limit (Δ T e∼ 20 K) yield evidence for the existence of a …
films using a high-sensitivity multiple-wavelength femtosecond pump-probe technique. A
nonequilibrium electron distribution is excited by free-carrier absorption of an infrared
femtosecond pulse and its relaxation dynamics followed by measuring the transient
reflectivity and transmissivity with a visible probe pulse. Measurements performed in a thin
gold film in the very low perturbation limit (Δ T e∼ 20 K) yield evidence for the existence of a …
Abstract
Electron-electron and electron-phonon thermalization processes are investigated in gold films using a high-sensitivity multiple-wavelength femtosecond pump-probe technique. A nonequilibrium electron distribution is excited by free-carrier absorption of an infrared femtosecond pulse and its relaxation dynamics followed by measuring the transient reflectivity and transmissivity with a visible probe pulse. Measurements performed in a thin gold film in the very low perturbation limit (Δ T e∼ 20 K) yield evidence for the existence of a non-Fermi electron distribution with an electron thermalization time of∼ 500 fs and an electron-lattice interaction time of 1 ps. The apparent thermalization dynamics of the electron gas is much faster in optically thick samples and is shown to be dominated by transport effects.
American Physical Society
以上显示的是最相近的搜索结果。 查看全部搜索结果