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Giant and Broadband THz and IR Emission in Drift-biased Graphene-Based Hyperbolic Nanostructures

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arxiv 2211.13747 v1 pith:XTQBLXGV submitted 2022-11-24 cond-mat.mes-hall

Giant and Broadband THz and IR Emission in Drift-biased Graphene-Based Hyperbolic Nanostructures

classification cond-mat.mes-hall
keywords driftingbroadbandelectronshyperbolicradiationfrequencygraphene-basedmodes
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We demonstrate that Cherenkov radiation can be manipulated in terms of operation frequency, bandwidth, and efficiency by simultaneously controlling the properties of drifting electrons and the photonic states supported by their surrounding media. We analytically show that the radiation rate strongly depends on the momentum of the excited photonic state, in terms of magnitude, frequency dispersion, and its variation versus the properties of the drifting carriers. This approach is applied to design and realize miniaturized, broadband, tunable, and efficient terahertz and far-infrared sources by manipulating and boosting the coupling between drifting electrons and engineered hyperbolic modes in graphene-based nanostructures. The broadband, dispersive, and confined nature of hyperbolic modes relax momentum matching issues, avoid using electron beams, and drastically enhance the radiation rate - allowing that over 90% of drifting electrons emit photons. Our findings open a new paradigm for the development of solid-state terahertz and infrared sources.

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