Precision calculation of intense-laser-field multiphoton ionization (MPI) rates of H2+ at critical internuclear distances
Sang-Kil Son and Shih-I Chu
The 37th Meeting of the Division of Atomic, Molecular and Optical Physics
(American Physics Society, Knoxville, Tennessee, May 16-20, 2006) [poster] ![[bib]](/biblio/img/bibtex.gif) [BibTeX]![[slide]](/biblio/img/slide.gif) [slide: 693kb]![[link]](/biblio/img/link.gif) http://meetings.aps.org/link/BAPS.2006.DAMOP.W1.64
We extend the time-independent non-Hermitian Floquet formalism [1] for high precision calculation of the MPI rates of H2+ at internuclear distances (R) from 2.0 to 20.0 a.u. in intense laser fields with intensity 1 × 1014 W/cm2 and wavelength 791 nm. The procedure involves the use of the complex-scaling generalized pseudospectral (CSGPS) method for non-uniform spatial discretization of the Hamiltonian expressed in prolate spheroidal coordinates. We found that the MPI rates strongly depend upon R and are significantly enhanced at several critical distances (R ~ 8, 11, and 15 a.u.) in good agreement with the recent experimental results [2].
[1] S. I. Chu and D. A. Telnov, Phys. Rep. 390, 1 (2004).
[2] D. Pavičić, A. Kiess, T. W. Hänsch, and H. Figger, Phys. Rev. Lett. 94, 163002 (2005).
Tags: Floquet,
diatomic molecule,
H2+,
strong-field,
MPI,
KU
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