Quantum and classical features of the photoionization spectrum of C60

Abstract

By considering photoionization of the C60 fullerene, we elucidate the contributions of various classical and quantum physics phenomena appearing in this process. By comparing the results, based on the ab initio and model approaches, we map the well-resolved features of the photoabsoprtion spectrum to single-particle and collective excitations which have the different physical nature. It is demonstrated that the peculiarities arising in the photoionization spectrum of C60 atop the dominating plasmon excitations have the quantum origin. In particular, we demonstrate that a series of individual peaks can be assigned either to the optically allowed discrete transitions or to ionization of particular molecular orbitals of the system. The analysis performed gives a detailed information on the nature of numerous features in the photoabsorption spectrum of C60.