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Non‐Hermitian polariton–photon coupling in a perovskite open microcavity

Mateusz Kędziora, Mateusz Król, Piotr Kapuściński, Helgi Sigurðsson, Rafał Mazur, Wiktor Piecek, Jacek Szczytko, Michał Matuszewski, Andrzej Opala, Barbara Piętka

2024Nanophotonics11 citationsDOIOpen Access PDF

Abstract

Exploring the non-Hermitian properties of semiconductor materials for optical applications is at the forefront of photonic research. However, the selection of appropriate systems to implement such photonic devices remains a topic of debate. In this work, we demonstrate that a perovskite crystal, characterized by its easy and low-cost manufacturing, when placed between two distributed Bragg reflectors with an air gap, can form a natural double microcavity. This construction shows promising properties for the realisation of novel, tunable non-Hermitian photonic devices through strong light-matter coupling. We reveal that such a system exhibits double-coupled polariton modes with dispersion including multiple inflection points. Owing to its non-Hermiticity, our system exhibits nonreciprocal properties and allows for the observation of exceptional points. Our experimental studies are in agreement with the theoretical analysis based on coupled mode theory and calculations based on transfer matrix method.

Topics & Concepts

PolaritonPhotonic crystalPhotonicsPhotonHermitian matrixCoupled mode theoryCoupling (piping)OptoelectronicsOptical microcavityPhysicsPerovskite (structure)Dispersion (optics)Materials scienceOpticsQuantum mechanicsRefractive indexLaserEngineeringMetallurgyChemical engineeringStrong Light-Matter InteractionsMechanical and Optical ResonatorsQuantum Mechanics and Non-Hermitian Physics
Non‐Hermitian polariton–photon coupling in a perovskite open microcavity | Litcius