Electron Mass Enhancement due to Anharmonic Local Phonons

Abstract

In order to understand how electron effective mass is enhanced by anharmonic local oscillation of an atom in a cage composed of other atoms, i.e., rattling, we analyze anharmonic Holstein model by using a Green's function method. Due to the evaluation of an electron mass enhancement factor Z, we find that Z becomes maximum when zero-point energy is comparable with potential height at which the amplitude of oscillation is rapidly enlarged. Cooperation of such quantum and rattling effects is considered to be a key issue to explain the electron mass enhancement in electron-rattling systems.