Strong-Field Interference Stabilization in Atoms and Molecules

Abstract

Theoretical investigations of the field-induced interference stabilization of Rydberg atoms are reviewed and summarized. The main discussed results are: the strong-field dynamics of ionization (the “death valley” and stabilization), the multipeak structure of the strong-field photoelectron energy spectrum, narrowing and reconstruction of atomic quasienergy levels in the strong-field limit and so on. Two different mechanisms of the strong-field-induced stabilization in molecules are discussed. One of these mechanisms is based on the direct generalization of the ideas about interference stabilization in atoms upon the case of molecules. The second mechanism is based on the idea about the field-induced avoided crossings of electronic potential curves reconstructed in a strong resonance laser field. Competition of these two mechanisms is discussed.KeywordsElectronic Wave FunctionPotential CurfRydberg AtomLeft WingNuclear Wave FunctionThese keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.