Free-electron wavepackets with quadratic phase evolution act as a programmable quantum medium enabling Talbot-resonant bunching and coherent phase transfer to produce nonclassical photon states.
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Double circular dichroism in high-harmonic emission survives only in broken time-reversal symmetry materials and carries opposite signs from bulk versus edge states, enabling their separation in photocurrent measurements.
Optical phonons suppress HHG in graphene via interband current phase scrambling in the static-lattice limit, explaining the experimental cutoff near 3 eV and dominating electronic dephasing.
citing papers explorer
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Programming Coherent and Quantum Light with a Free-Electron Wavepacket
Free-electron wavepackets with quadratic phase evolution act as a programmable quantum medium enabling Talbot-resonant bunching and coherent phase transfer to produce nonclassical photon states.
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Double circular dichroism high harmonic spectroscopy: An ultrafast probe for topological photocurrents
Double circular dichroism in high-harmonic emission survives only in broken time-reversal symmetry materials and carries opposite signs from bulk versus edge states, enabling their separation in photocurrent measurements.
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Role of ultrafast electron-optical-phonon interactions in high harmonic generation from graphene
Optical phonons suppress HHG in graphene via interband current phase scrambling in the static-lattice limit, explaining the experimental cutoff near 3 eV and dominating electronic dephasing.