Two-color phase-locked light fields enable coherent control of chirality-selective carrier excitation in inversion-symmetric Weyl semimetals, generating a controllable photocurrent.
Nature Photonics , volume =
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Critical current in electrically tunable moiré minibands scales directly with bandwidth, providing a universal electrical probe across graphene superlattices.
Graphene's high conductivity, fast carrier dynamics, and tunability enable engineering of THz-frequency photodetectors, modulators, and sources.
citing papers explorer
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Coherent control of chirality in Weyl semimetals
Two-color phase-locked light fields enable coherent control of chirality-selective carrier excitation in inversion-symmetric Weyl semimetals, generating a controllable photocurrent.
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Bandwidth-Limited Critical Currents in Electrically Tunable Moir\'e Bands
Critical current in electrically tunable moiré minibands scales directly with bandwidth, providing a universal electrical probe across graphene superlattices.
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Engineering THz-frequency light generation, detection and manipulation through graphene
Graphene's high conductivity, fast carrier dynamics, and tunability enable engineering of THz-frequency photodetectors, modulators, and sources.