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Journal of Modern Optics Volume 58, 2011 - Issue 13: Advances in Strong-Field and Attosecond Physics
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Research Articles

Different regimes of strong-field dynamics of atoms in intense low-frequency laser pulses

A.M. Popov Institute of Nuclear Physics, Moscow State University, 119991 Moscow, Russian Federation
,
O.V. Tikhonova Institute of Nuclear Physics, Moscow State University, 119991 Moscow, Russian FederationCorrespondence[email protected]
&
E.A. Volkova Institute of Nuclear Physics, Moscow State University, 119991 Moscow, Russian Federation
Pages 1195-1205 | Received 24 Nov 2010, Accepted 04 Feb 2011, Published online: 01 Mar 2011
 
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Abstract

In this work, the dynamics of a 3D hydrogen atom in an intense ultrashort low-frequency laser pulse is investigated by direct numerical integration of the non-stationary Schrödinger equation in a wide range of laser pulse parameters. Significantly different regimes of ionization are found to exist. In the case when the Keldysh parameter is much less than unity, but the laser intensity exceeds the barrier suppression threshold, the atomic behavior is found not to correspond to the tunneling ionization and is shown to reveal the features of the Kramers--Henneberger regime, resulting in the stabilization phenomenon. The applicability range of the re-scattering scenario is discussed.

Acknowledgements

This work was supported by Russian Fund for Basic Research (Grant No. 09-02-00317), Presidential Grant NSh No. 3322.2010.2 and State Contract 14.740.11.0065. The simulations were performed on supercomputer SKIF MSU ‘Chebyshev’.

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