Origin of the unusual dependence of Raman D band on excitation wavelength in graphite-like materials
Abstract
We have revisited the still unresolved puzzle of the dispersion of the Raman disordered-induced D band as a function of laser excitation photon energy EL in graphite-like materials. We propose that the D-mode is a combination of an optic phonon at the K-point in the Brillioun zone and an acoustic phonon whose momentum is determined uniquely by the double resonance condition. The fit of the experimental data with the double-resonance model yields the reduced effective mass of 0.025me for the electron-hole pairs corresponding to the A2 transition, in agreement with other experiments. The model can also explain the difference between ωS and ωAS for D and D modes, and predicts its dependence on the Raman excitation frequency.
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