Litcius/Paper detail

Nonlocality Induced Cherenkov Threshold

Hao Hu, Xiao Lin, Jingjing Zhang, Dongjue Liu, Patrice Genevet, Baile Zhang, Yu Luo

2020Laser & Photonics Review44 citationsDOI

Abstract

Abstract Cherenkov radiation is generally believed to be threshold‐free in hyperbolic metamaterials owing to the extremely large photonic density of states in classical local framework. Although recent advances in nonlocal and quantum plasmonics extend our understanding of light‐matter interactions in metamaterials, how such effects influence Cherenkov radiation in hyperbolic metamaterials still remains unknown. Here, it is demonstrated that effects of nonlocality add a new degree of freedom to engineer Cherenkov thresholds in hyperbolic metamaterials. The interplay between finite structural dimensions and nonlocal nature of metallic electrons results in a nonzero Cherenkov threshold. Counterintuitively, such nonlocality‐induced Cherenkov threshold can be significantly smaller than the classically predicted one if the metamaterial is designed to work around the epsilon‐near‐zero frequency. This phenomenon is attributed to the excitation of longitudinal plasmon modes which are absent in classical electromagnetic framework. These findings apply to a general class of hyperbolic materials, including metallodielectric layered structures, nanorod/nanoribbon arrays, hyperbolic van der Waals crystals, etc.

Topics & Concepts

Cherenkov radiationQuantum nonlocalityMetamaterialPhysicsPlasmonQuantumQuantum mechanicsCondensed matter physicsOpticsQuantum entanglementDetectorMetamaterials and Metasurfaces ApplicationsPlasmonic and Surface Plasmon ResearchTerahertz technology and applications