Litcius/Paper detail

Uncovering Maximum Chirality in Resonant Nanostructures

Weijin Chen, Zhenyu Wang, M. V. Gorkunov, Jiazheng Qin, Ruize Wang, Chaowei Wang, Dong Wu, Jiaru Chu, Xuehua Wang, Yuri S. Kivshar, Yang Chen

2024Nano Letters36 citationsDOI

Abstract

Chiral nanostructures allow engineering of chiroptical responses; however, their design usually relies on empirical approaches and extensive numerical simulations. It remains unclear if a general strategy exists to enhance and maximize the intrinsic chirality of subwavelength photonic structures. Here, we suggest a microscopic theory and uncover the origin of strong chiral responses of resonant nanostructures. We reveal that the reactive helicity density is critically important for achieving maximum chirality at resonances. We demonstrate our general concept on the examples of planar photonic crystal slabs and metasurfaces, where out-of-plane mirror symmetry is broken by a bilayer design. Our findings provide a general recipe for designing photonic structures with maximum chirality, paving the way toward many applications, including chiral sensing, chiral emitters and detectors, and chiral quantum optics.

Topics & Concepts

Chirality (physics)PhotonicsPhotonic crystalMetamaterialHelicityNanostructurePlanar chiralityQuantumPlanarNanotechnologyPhysicsMaterials scienceOpticsQuantum mechanicsSymmetry breakingChiral symmetry breakingChemistryEnantioselective synthesisComputer scienceComputer graphics (images)CatalysisBiochemistryNambu–Jona-Lasinio modelMetamaterials and Metasurfaces ApplicationsPlasmonic and Surface Plasmon ResearchPhotonic Crystals and Applications