Non-dipole and relativistic effects in laser-atom interactions

Details Non-dipole and relativistic effects in laser-atom interactions Non-dipole and relativistic effects in laser-atom interactions

Apr 2002

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2002aipc..611....9j&link_type=abstract

SUPERSTRONG FIELDS IN PLASMAS: Second International Conference on Superstrong Fields in Plasmas, Second International Conference

Physics

1

Strong-Field Excitation Of Optical Transitions In Quantum Systems, Multiphoton Processes, Dynamic Stark Shift, Multiphoton Ionization And Excitation To Highly Excited States, Frequency Conversion, Harmonic Generation, Including Higher-Order Harmonic Generation, Laser-Plasma Acceleration Of Electrons And Ions

Scientific paper

Descriptions of multiphoton phenomena based on the non-relativistic Schrödinger equation and the dipole approximation can break down at high laser intensities currently available. We first discuss how non-dipole effects, of order 1/c, due to the magnetic field component of a laser pulse, influence harmonic generation and atomic stabilization in the non-relativistic regime. Particular attention is devoted to photon emission by ions interacting with ultra-short, intense laser pulses. We then review progress in the theoretical study of relativistic effects arising when atoms interact with ultra-strong laser fields. .

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