Abstract
In order to develop the microscopic theory of the multiphoton interaction of graphene with strong laser fields of arbitrary polarization, the analytical solution of established evolutionary equation for graphene single-particle density matrix was obtained revealing the generalized Rabi oscillations of Fermi-Dirac sea in the graphene. Creation of coherent superposition states of the particle-hole pairs in the graphene at the multiphoton resonant excitation by laser pulses of arbitrary polarizations and harmonics generation at the particle-hole annihilation from these superposition states are shown.
Highlights
quantum electrodynamics (QED) in 5 nm diamond ball with floating electron
Using the exact analytic solution in the semiclassical Jaynes-Cummings model without the rotating-wave approximation we describe quantum electrodynamics (QED) cavity with diamond lattice in different states, i.e. before and after quantum chaos
We discuss a few approaches to problem of self-consistency of volume 3D and surface 2D wave functions of 5 nm diamond ball, e.g. introduction of collective excitations or quasiparticles, strongly modified plasmon-matter interaction, floating electrons as anti-quasiparticle, possibility of semi-periodic spherical Bloch function etc
Summary
QED in 5 nm diamond ball with floating electron A few theoretical models of QED diamond balls have been analyzed. Using the exact analytic solution in the semiclassical Jaynes-Cummings model without the rotating-wave approximation we describe QED cavity with diamond lattice in different states, i.e. before and after quantum chaos.
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