Dynamical symmetry breaking under core excitation in graphite: Polarization correlation in soft X-ray recombination emission
arXiv:cond-mat/0312007 · doi:10.1103/PhysRevLett.93.017401
Abstract
A recombination emission spectrum is applied to study the local lattice distortion due to core excitation in graphite. The recombination emission spectrum reveals a long low-energy tail when the C $1s$ electron is excited to the $Ï^*$ core exciton state. This indicates a large local lattice distortion around the excited carbon atom within a core hole lifetime ($\sim$10fs). Theoretical calculation based upon an ionic cluster model well reproduces the experiments. The strong polarization correlation between incident and emitted X-rays is conclusive evidence of symmetry breaking in the core exciton state due to coupling with asymmetric vibrational modes.
9 pages, 4 figures