Evidence for phonon hardening in laser-excited gold using x-ray diffraction at a hard x-ray free electron laser
Adrien Descamps, Benjamin K. Ofori-Okai, Oliviero Bistoni, Zhijiang Chen, Eric Cunningham, L. B. Fletcher, N. J. Hartley, Jerome Hastings, Dimitri Khaghani, Mianzhen Mo, Bob Nagler, V. Recoules, R. Redmer, Maximilian Schörner, Debbie G. Senesky, Peihao Sun, Hai-En Tsai, Thomas G. White, S. H. Glenzer, E. E. McBride
Abstract
Studies of laser-heated materials on femtosecond timescales have shown that the interatomic potential can be perturbed at sufficiently high laser intensities. For gold, it has been postulated to undergo a strong stiffening leading to an increase of the phonon energies, known as phonon hardening. Despite efforts to investigate this behavior, only measurements at low absorbed energy density have been performed, for which the interpretation of the experimental data remains ambiguous. By using in situ single-shot x-ray diffraction at a hard x-ray free-electron laser, the evolution of diffraction line intensities of laser-excited Au to a higher energy density provides evidence for phonon hardening.