Bright squeezed vacuum light enhances asymmetry in strong-field ionization photoelectron momentum distributions by orders of magnitude compared to classical fields, due to amplitude fluctuations that modify tunneling probability while leaving continuum dynamics largely unchanged.
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2 Pith papers cite this work. Polarity classification is still indexing.
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A two-color orthogonally polarized field with controllable sub-cycle chirality produces opposite forward/backward photoelectron circular dichroism signals in consecutive half-cycles of chiral-molecule photoionization.
citing papers explorer
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Interferometrically Enhanced Asymmetry in Strong-field Ionization with Bright Squeezed Vacuum
Bright squeezed vacuum light enhances asymmetry in strong-field ionization photoelectron momentum distributions by orders of magnitude compared to classical fields, due to amplitude fluctuations that modify tunneling probability while leaving continuum dynamics largely unchanged.
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Controlling Sub-Cycle Optical Chirality in the Photoionization of Chiral Molecules
A two-color orthogonally polarized field with controllable sub-cycle chirality produces opposite forward/backward photoelectron circular dichroism signals in consecutive half-cycles of chiral-molecule photoionization.