Ultraslow phonon-assisted collapse of tubular image states |
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| Authors: | Dvira Segal Petr Král Moshe Shapiro |
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| Institution: | Department of Chemical Physics, Weizmann Institute of Science, 76100 Rehovot, Israel Department of Chemistry and Physics, The University of British Columbia, Vancouver V6T1Z1, Canada |
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| Abstract: | We predict ultraslow collapse of “tubular image states” (TIS) on material surfaces. TIS are bound Rydberg-like electronic states formed at large distances (∼30 nm) from the surfaces of suspended circularly-symmetric nanowires, such as metallic C nanotubes. The states are formed in potential wells, resulting from a combination of the TIS-electron attraction to image charges in the nanotube and its centrifugal repulsion, caused by spinning around the tube. We demonstrate that TIS can collapse on the tube surface by passing their angular momentum l to circularly polarized flexural phonons excited in the tube. Our analysis shows that for highly detached TIS with l ? 6 the relaxation lifetimes are of the order of 10 ns-1 μs, while for l < 6 these lifetimes are reduced by several orders of magnitude. |
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| Keywords: | Many-body and quasi-particle theories Surface electronic phenomena (work function surface potential surface previous termstates etc ) Phonons |
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