Vibrations and Berry Phases of Charged Buckminsterfullerene
Abstract
A simple model of electron-vibron interactions in buckminsterfullerene ions is solved semiclassically. Electronic degeneracies of C60n- induce dynamical Jahn-Teller distortions, which are unimodal for n\!\!3 and bimodal for n\!=\!3. The quantization of motion along the Jahn-Teller manifold leads to a symmetric-top rotator Hamiltonian. I find Molecular Aharonov-Bohm effects where electronic Berry phases determine the vibrational spectra, zero point fluctuations, and electrons' pair binding energies. The latter are relevant to superconductivity in alkali-fullerenes.
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