Quantum uncertainty from the electromagnetic field imprints directly onto the spatial uncertainty of electron wave packets, while mean-position corrections remain weak and largely field-state independent.
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2 Pith papers cite this work. Polarity classification is still indexing.
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Pith papers citing it
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2026 2verdicts
UNVERDICTED 2representative citing papers
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.
citing papers explorer
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Wave packet motion in a quantized electromagnetic field: Analytic results
Quantum uncertainty from the electromagnetic field imprints directly onto the spatial uncertainty of electron wave packets, while mean-position corrections remain weak and largely field-state independent.
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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.