The effect of an intense external linearly polarized radiation field on the angular distributions and polarization states of the photons emitted during the radiative capture of a free electron by a bare nucleus into the ground state of the bound system is investigated. On symmetry grounds it is predicted that emission of elliptically polarized photons occurs when the momentum of the electron beam is not aligned to the direction of the oscillating field. The predictions are corroborated by numerical calculations of recombination rates carried out within a modified Keldysh-type treatment, in order to account for Coulomb effects. It is found that strong modifications to the angular distributions of the emitted photons are induced by the external radiation field.
BIVONA S, BONANNO G, BURLON R, GURRERA D, LEONE C (2008). Signature of Quantum Interferences in Above Threshold Detachment of Negative Ions by a Short Infrared Pulse. PHYSICAL REVIEW A, 77, 051404-1-051404-4.
Signature of Quantum Interferences in Above Threshold Detachment of Negative Ions by a Short Infrared Pulse
BIVONA, Saverio;BONANNO, Giovanni;BURLON, Riccardo;GURRERA, Davide;LEONE, Claudio
2008-01-01
Abstract
The effect of an intense external linearly polarized radiation field on the angular distributions and polarization states of the photons emitted during the radiative capture of a free electron by a bare nucleus into the ground state of the bound system is investigated. On symmetry grounds it is predicted that emission of elliptically polarized photons occurs when the momentum of the electron beam is not aligned to the direction of the oscillating field. The predictions are corroborated by numerical calculations of recombination rates carried out within a modified Keldysh-type treatment, in order to account for Coulomb effects. It is found that strong modifications to the angular distributions of the emitted photons are induced by the external radiation field.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.