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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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.
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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.