Abstract
The dynamics of floating two-dimensional {2D) monolayers of Xe, Kr, Ar, and Ne are explored over a range of lattice spacings and temperature using the self-consistent phonon theory. Phonon dispersion curves and the zero-point energy are calculated and appropriate Debye temperatures and rms vibrational amplitudes (u2) estimated at T =0 K. The results show that floating monolayers of Ar and Xe represent their physisorbed counterparts well. They also show that Xe and Kr are effectively harmonic at T &25 K while Ne is a strongly anharmonic 2D crystal at all T. The selfconsistent harmonic frequencies in Ne at T =0 K are nearly twice the harmonic values. Ar is an intermediate case. The effective Debye temperature is ea -65 K in all cases and the Lindemann ratio y = (u ') /R varies from 3% in Xe to 9% in Ne at T =0 K, similar to 3D crystal values. The phonon frequencies depend sensitively on lattice parameter and temperature, more so than in 3D crystals.
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