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Reanalysis of experimental determinations of polariton-polariton interactions in microcavities

David W. Snoke, V. Hartwell, Jonathan Beaumariage, Shouvik Mukherjee, Yoseob Yoon, David Moffat Myers, Mark Steger, Zheng Sun, Keith A. Nelson, L. N. Pfeiffer

2023Physical review. B./Physical review. B21 citationsDOI

Abstract

Inside solids, photons can become strongly interacting, which allows the possibility of optical transistors, in a which one light beam controls the transmission of another light beam. The strength of this interaction can be greatly increased in specially designed structures in which the photon frequency is near an electronic resonance known as an exciton. The exact value of this interaction strength has been much debated, ranging over orders of magnitude. This paper reviews a set of experiments and argues for a number well below some earlier estimates, but still large compared to the predictions of standard theory calculations.

Topics & Concepts

PolaritonPhotonPhysicsResonance (particle physics)ExcitonBeam (structure)Transmission (telecommunications)Condensed matter physicsAtomic physicsComputational physicsQuantum mechanicsOpticsTelecommunicationsComputer scienceStrong Light-Matter InteractionsQuantum and electron transport phenomenaThermal Radiation and Cooling Technologies
Reanalysis of experimental determinations of polariton-polariton interactions in microcavities | Litcius