Litcius/Paper detail

Excitons in a disordered medium: A numerical study in InGaN quantum wells

Aurélien David, Claude Weisbuch

2022Physical Review Research15 citationsDOIOpen Access PDF

Abstract

Excitons in InGaN quantum wells are investigated numerically, considering random alloy disorder and Coulomb interaction on equal footing in the Schr\"odinger equation. Their statistical properties are systemically explored as a function of the quantum well thickness and composition, revealing a complex competition between disorder-induced carrier localization, Coulomb attraction, and field-induced wave function separation. This results in a class of semiconductor quasiparticle with hybrid properties in between hydrogenoid excitons and disorder-localized free particles. Exciton screening by free carriers is investigated and shows distinct behavior from the screening of bulk excitons. Finally, a highly accurate approximate solution of the excitonic Schr\"odinger equation, with reduced numerical complexity, is introduced.

Topics & Concepts

ExcitonQuasiparticleCoulombQuantum wellCondensed matter physicsWave functionPhysicsBiexcitonQuantum mechanicsElectronSuperconductivityLaserSemiconductor Quantum Structures and DevicesGaN-based semiconductor devices and materialsQuantum and electron transport phenomena