Tunnel ionization of H{sub 2} in a low-frequency laser field: A wave-packet approach

Nguyen-Dang, T; Chateauneuf, F; Manoli, S; Atabek, O; Keller, A

doi:10.1103/PhysRevA.56.2142

Title: Tunnel ionization of H{sub 2} in a low-frequency laser field: A wave-packet approach

Journal Article · Mon Sep 01 00:00:00 EDT 1997 · Physical Review A

DOI:https://doi.org/10.1103/PhysRevA.56.2142· OSTI ID:560619

Nguyen-Dang, T; Chateauneuf, F; Manoli, S ^[1]; Atabek, O; Keller, A ^[2]

Departement de Chimie, Universite Laval, Quebec, G1K7P4 (CANADA)
Laboratoire de Photophysique Moleculaire, CNRS, Batiment 213, Campus dOrsay, 91405 Orsay Cedex (France)

The dynamics of multielectron dissociative ionization (MEDI) of H{sub 2} in an intense IR laser pulse are investigated using a wave-packet propagation scheme. The electron tunneling processes corresponding to the successive ionizations of H{sub 2} are expressed in terms of field-free Born-Oppenheimer (BO) potential energy surfaces (PES) by transforming the tunnel shape resonance picture into a Feshbach resonance problem. This transformation is achieved by defining a new, time-dependent electronic basis in which the bound electrons are still described by field-free BO electronic states while the ionized ones are described by Airy functions. In the adiabatic, quasistatic approximation, these functions describe free electrons under the influence of the instantaneous electric field of the laser and such an ionized electron can have a negative total energy. As a consequence, when dressed by the continuous ejected electron energy, the BO PES of an ionic channel can be brought into resonance with states of the parent species. This construction gives a picture in which wave packets are to be propagated on a continuum of coupled electronic manifolds. A reduction of the wave-packet propagation scheme to an effective five-channel problem has been obtained for the description of the first dissociative ionization process in H{sub 2} by using Fano`s formalism [U. Fano, Phys. Rev. {bold 124}, 1866 (1961)] to analytically diagonalize the infinite, continuous interaction potential matrix and by using the properties of Fano`s solutions. With this algorithm, the effect that continuous ionization of H{sub 2} has on the dissociation dynamics of the H{sub 2}{sup +} ion has been investigated. In comparison with results that would be obtained if the first ionization of H{sub 2} was impulsive, the wave-packet dynamics of the H{sub 2}{sup +} ion prepared continuously by tunnel ionization are markedly nonadiabatic. (Abstract Truncated)

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OSTI ID:: 560619

Journal Information:: Physical Review A, Vol. 56, Issue 3; Other Information: PBD: Sep 1997

Country of Publication:: United States

Language:: English

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66 PHYSICS
HYDROGEN
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Title: Tunnel ionization of H{sub 2} in a low-frequency laser field: A wave-packet approach

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