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Transmission phase shift of phonon-assisted tunneling through a quantum dot

arXiv:0711.4882 · doi:10.1103/PhysRevB.77.035309

Abstract

The influence of electron-phonon interaction on the transmission phase shift of an electron passing through a quantum dot is investigated by using the scattering theory. The transmission phase versus the intra-dot level shows a serial of phonon-induced dips. These dips are highly sensitive to electron-phonon interaction strength $λ$, and they are much more pronounced than phonon-assisted sub-peaks appeared in the conductance. Phonon-induce dephasing is also studied, and the results show that the dephasing probability $T_d$ monotonically increases with the electron-phonon interaction strength $λ$. The dephasing probability $T_d \proptoλ^2$ for small $λ$ but $T_d\propto λ$ at large $λ$.

8 pages, 6 figures, accepted by Phys. Rev. B