Abstract
The classical dynamics of 1D H2+ in an intense field are discussed. The initial conditions are chosen at random in the field-free case, and then the Hamiltonian canonical equations of H2+ system in the intense laser field are solved numerically by mean of the symplectic method under these initial conditions. The probabilities of survival, dissociation, ionization, and Coulomb explosion of H2+ system in the intense laser field are obtained for different laser intensity based on the classical theory.
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