Naslov
Effects of electronic relaxation processes on vibrational linewidths of adsorbates on surfaces: the case of CO/Cu(100)

Autori
Novko, Dino ; Alducin, M. ; Blanco-Rey, M. ; Juaristi, J. I.

Izvornik
Physical review. B (2469-9950) 94 (2016), 22; 224306, 19

Vrsta, podvrsta i kategorija rada
Radovi u časopisima, članak, znanstveni

Ključne riječi
vibrational linewidths ; molecules on surfaces ; ab initio

Sažetak
We investigate nonadiabatic effects for the vibrational stretch mode of the CO molecule adsorbed on the top site of the Cu(100) surface. By studying the long-wavelength (q=0) imaginary and real parts of the density functional theory based phonon self-energy due to the electron-phonon coupling π we obtain the phonon linewidth and the frequency renormalization of the CO stretch mode, respectively. To simulate electronic scattering processes that lead to further damping of the phonon modes we include a phenomenological damping in the phonon self-energy, as well as in the single-electron spectral function that enters π, through the momentum distribution function. For the specific case of electron-impurity scattering we explicitly show how this process opens the indirect intraband channel and broadens the linewidth of the CO stretch mode. To emphasize the importance of accounting for electronic scattering processes we compare the phonon linewidths in the clean noninteracting limit (infinite electron lifetime) and when electronic scattering processes are phenomenologically included (finite electron lifetime) with available experimental data. We find that the agreement with experiments is improved in the latter case.

Izvorni jezik
Engleski

Znanstvena područja
Fizika

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