Dynamics of high amplitude coherent phonons in photoexcited bismuth

David Reis; David Fritz; Eammon Murray; Stephen Fahy; Jared Wahlstrand

Dynamics of high amplitude coherent phonons in photoexcited bismuth

ORAL

Abstract

We report on studies of high amplitude coherent phonons in photoexcited bismuth. All optical experiments, in which two pump pulses are used to coherently control the amplitude $A_{1g}$ phonon at a fixed carrier density, allow us to separate the effects of carrier dynamics from anharmonicity. The results show that the the time dependent frequency of the phonon is dominated by electronic softening of the interatomic potential. Seperate first-principals theoretical calculations confirm these results for photoexcited carrier densities up to approximately 2\% of the valence electrons. We comment on the possibility of x-ray diffraction and diffuse scattering as a means of measuring the detailed dynamics.

^*Supported in part by the National Science Foundation FOCUS Physics Frontier Center, the Department of Energy, Basic Energy Sciences, Science Foundation Irealand and the Irish Research Council for Science, Engineering, and Technology

March 15, 2006, 8:48 AM – March 15, 2006, 9:00 AM

Authors

David Reis
- FOCUS Center and Department of Physics, University of Michigan
David Fritz
- FOCUS Center and Department of Physics, University of Michigan
Eammon Murray
- Department of Physics and Tyndall National Institute, University College, Cork, Ireland
Stephen Fahy
- Tyndall National Institute and Department of Physics, University College Cork, Ireland
- Department of Physics and Tyndall National Institute, University College, Cork, Ireland
Jared Wahlstrand
- JILA/University of Colorado