Laser-induced resonance states as dynamic suppressors of ionization in high-frequency short pulses

Citation:

Barash, D. ; Orel, A. E. ; Baer, R. Laser-induced resonance states as dynamic suppressors of ionization in high-frequency short pulses. Phys. Rev. A 2000, 61, 013402.
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Abstract:

An adiabatic-Floquet formalism is used to study the suppression of ionization in short laser pulses. In the high-frequency limit the adiabatic equations involve only the pulse envelope where transitions are purely ramp effects. For a short-ranged potential having a single-bound state we show that ionization suppression is caused by the appearance of a laser-induced resonance state, which is coupled by the pulse ramp to the ground state and acts to trap ionizing flux.

Notes:

RBaer-Publication

Last updated on 09/12/2018