Bright squeezed vacuum light enhances spider-like holographic structures in strong-field ionization of xenon by preserving coherence among electron trajectories emitted within the same subcycle intensity fluctuation.
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Entangled IR photon pairs drive HHG in solids, producing harmonics up to the 10th order that exhibit photon bunching whose g(2) varies with order to track emission mechanisms and retain quantum correlations in non-degenerate cases.
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Strong-field ionization of atoms with bright squeezed vacuum light
Bright squeezed vacuum light enhances spider-like holographic structures in strong-field ionization of xenon by preserving coherence among electron trajectories emitted within the same subcycle intensity fluctuation.
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Attosecond quantum spectroscopy with entangled photon pairs
Entangled IR photon pairs drive HHG in solids, producing harmonics up to the 10th order that exhibit photon bunching whose g(2) varies with order to track emission mechanisms and retain quantum correlations in non-degenerate cases.