A quantum-field-based formalism unifies TR-XRD and TR-UED, shows their correspondence, and is demonstrated on laser-driven electron dynamics in graphene.
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Polarization-selective attosecond four-wave mixing resolves ultrafast decoherence of dipole-allowed and dipole-forbidden core excitons in NaF, attributing the sub-8 fs times to strong exciton-phonon coupling and identifying s-like versus p-like orbital angular momentum.
Coupled ab initio atomic response and propagation simulations demonstrate feedback from self-generated harmonics (up to order 11) on ultrashort laser pulse evolution over macroscopic distances.
citing papers explorer
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Unified approach to time-resolved x-ray and electron diffraction imaging
A quantum-field-based formalism unifies TR-XRD and TR-UED, shows their correspondence, and is demonstrated on laser-driven electron dynamics in graphene.
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Probing of Core Excitons in Solid NaF with Polarization-Selective Attosecond Time-Resolved Four-Wave Mixing Spectroscopy
Polarization-selective attosecond four-wave mixing resolves ultrafast decoherence of dipole-allowed and dipole-forbidden core excitons in NaF, attributing the sub-8 fs times to strong exciton-phonon coupling and identifying s-like versus p-like orbital angular momentum.
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Ab-initio calculations of laser-atom interactions reveal harmonics feedback during macroscopic propagation
Coupled ab initio atomic response and propagation simulations demonstrate feedback from self-generated harmonics (up to order 11) on ultrashort laser pulse evolution over macroscopic distances.