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Interfacial Cherenkov radiation from ultralow-energy electrons

Zheng Gong, Jialin Chen, Ruoxi Chen, Xingjian Zhu, Chan Wang, Xinyan Zhang, Hao Hu, Yi Yang, Baile Zhang, Hongsheng Chen, Ido Kaminer, Xiao Lin

2023Proceedings of the National Academy of Sciences23 citationsDOIOpen Access PDF

Abstract

Cherenkov radiation occurs only when a charged particle moves with a velocity exceeding the phase velocity of light in that matter. This radiation mechanism creates directional light emission at a wide range of frequencies and could facilitate the development of on-chip light sources except for the hard-to-satisfy requirement for high-energy particles. Creating Cherenkov radiation from low-energy electrons that has no momentum mismatch with light in free space is still a long-standing challenge. Here, we report a mechanism to overcome this challenge by exploiting a combined effect of interfacial Cherenkov radiation and umklapp scattering, namely the constructive interference of light emission from sequential particle-interface interactions with specially designed (umklapp) momentum-shifts. We find that this combined effect is able to create the interfacial Cherenkov radiation from ultralow-energy electrons, with kinetic energies down to the electron-volt scale. Due to the umklapp scattering for the excited high-momentum Bloch modes, the resulting interfacial Cherenkov radiation is uniquely featured with spatially separated apexes for its wave cone and group cone.

Topics & Concepts

Cherenkov radiationPhysicsElectronTransition radiationRadiationScatteringMomentum (technical analysis)Synchrotron radiationOpticsCherenkov detectorKinetic energyCharged particlePhotonAtomic physicsComputational physicsNuclear physicsQuantum mechanicsIonFinanceDetectorEconomicsTerahertz technology and applicationsStrong Light-Matter InteractionsMetamaterials and Metasurfaces Applications
Interfacial Cherenkov radiation from ultralow-energy electrons | Litcius