Theory for Twisted Bilayer Photonic Crystal Slabs
Beicheng Lou, Nathan Zhao, Momchil Minkov, Cheng Guo, Meir Orenstein, Shanhui Fan
Abstract
We analyze scattering properties of twisted bilayer photonic crystal slabs through a high-dimensional plane wave expansion method. The method is applicable for arbitrary twist angles and does not suffer from the limitations of the commonly used supercell approximation. We show strongly tunable resonance properties of this system which can be accounted for semianalytically from a correspondence relation to a simpler structure. We also observe strongly tunable resonant chiral behavior in this system. Our work provides the theoretical foundation for predicting and understanding the rich optical physics of twisted multilayer photonic crystal systems.
Topics & Concepts
SupercellBilayerTwistPhotonic crystalResonance (particle physics)ScatteringPhysicsWork (physics)PhotonicsCondensed matter physicsCrystal (programming language)OpticsMaterials scienceQuantum mechanicsGeometryProgramming languageMembraneComputer scienceMathematicsGeneticsMeteorologyBiologyThunderstormPhotonic Crystals and ApplicationsPhotonic and Optical DevicesOptical Coatings and Gratings