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Synchronizing Bloch-oscillating free carriers in moir\'e flat bands

Mesoscale and Nanoscale Physics 2021-06-30 v4

Abstract

Achieving Bloch oscillations of free carriers under a direct current, a long-sought-after collective many-body behavior, has been challenging due to stringent constraints on the band properties. We argue that the flat bands in moir\'e graphene fulfill the basic requirements for observing Bloch oscillations, offering an appealing alternative to the stacked quantum wells used in previous work aiming to access this regime. Bloch-oscillating moir\'e superlattices emit a comb-like spectrum of incommensurate frequencies, a property of interest for converting direct currents into high-frequency currents and developing broad-band amplifiers in THz domain. The oscillations can be synchronized through coupling to an oscillator mode in a photonic or plasmonic resonator. Phase-coherent collective oscillations in the resonant regime provide a realization of current-pumped THz lasing.

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Cite

@article{arxiv.2011.09219,
  title  = {Synchronizing Bloch-oscillating free carriers in moir\'e flat bands},
  author = {Ali Fahimniya and Zhiyu Dong and Egor Kiselev and Leonid Levitov},
  journal= {arXiv preprint arXiv:2011.09219},
  year   = {2021}
}

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