Shape resonances in photoionization cross sections and time delay

Abstract

Shape resonances in photoionization of atoms and molecules arise from a particular geometry of the ionic potential which traps the receding photoelectron in a quasi-bound state in a particular partial wave. This mechanism allows us to connect the photoionization cross section in the resonant region with the photoelectron scattering phase in this partial wave by a simple formula σ 2δ. Due to this relation, the phase δ can be extracted from an experimentally known cross section and then converted to the photoelectron group delay (Wigner time delay) τ W = ∂ δ/∂ E which is measurable by recently developed laser interferometric techniques. Such a direct connection of the photoionization cross section and the time delay is a fundamental property of shape resonances which provides a comprehensive test of novel measurements against a large body of older synchrotron data.

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