Intense high-order harmonic generation in giant fullerene molecule C240

Abstract

In this work the extreme nonlinear optical response of a giant fullerene molecule C240 in strong laser field is studied. The investigation of high-order harmonic generation in such quantum nanostructure is presented modeling the C240 molecule and its interaction with the laser field in the scope of the tight-binding mean-field approach. Electron-electron interaction is modeled by the parametrized Ohno potentail, which takes into account long-range Coulomb interaction. The essential role of many body Coulomb interaction in determining of harmonics intensities is demonstrated. We also consider vacancy-deffected molecule C240. The presence of a single vacancy breaks the icosahedral symmetry leading to the emergence of intense even-order harmonics. We examine the dependence of moderate harmonics on laser frequency that shows the multiphoton resonant nature of high harmonics generation. The dependence of cutoff harmonics on both laser intensity and frequency are examined too.