Energy exchange in ultrafast dynamics of atom with strong laser fields

Abstract: Using the three-dimensional classical ensemble model, we investigate the dependence of the energy absorbed by two electrons (Ar atom as an example) from the laser field on the laser parameters (wavelength, laser intensity and ellipticity). The results show that when the laser intensity is fixed and the wavelength increases, the energy absorbed by the two electrons from the laser field increases as a whole, but the trend is slightly different under different intensities. At lower intensity the dependence of the… Show more

“…Currently, accurate quantum simulations of a two-activeelectron system in a strong laser field still present a great challenge. The classical ensemble model proposed by Eberly and co-workers [36][37][38] has been widely used to study the strong field double ionization (DI) [39][40][41][42][43] of atoms and molecules in intense laser fields. In this study, we use this model to investigate the FDI of molecules via a linearly polarized laser field.…”

Electron dynamics of molecular frustrated double ionization driven by strong laser fields*

“…Currently, accurate quantum simulations of a two-activeelectron system in a strong laser field still present a great challenge. The classical ensemble model proposed by Eberly and co-workers [36][37][38] has been widely used to study the strong field double ionization (DI) [39][40][41][42][43] of atoms and molecules in intense laser fields. In this study, we use this model to investigate the FDI of molecules via a linearly polarized laser field.…”

Electron dynamics of molecular frustrated double ionization driven by strong laser fields*