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Rational design of efficient defect-based quantum emitters

Mark E. Turiansky, Kamyar Parto, Galan Moody, Chris G. Van de Walle

2024APL Photonics23 citationsDOIOpen Access PDF

Abstract

Single-photon emitters are an essential component of quantum networks, and defects or impurities in semiconductors are a promising platform to realize such quantum emitters. Here, we present a model that encapsulates the essential physics of coupling to phonons, which governs the behavior of real single-photon emitters, and critically evaluate several approximations that are commonly utilized. Emission in the telecom wavelength range is highly desirable, but our model shows that nonradiative processes are greatly enhanced at these low photon energies, leading to a decrease in efficiency. Our results suggest that reducing the phonon frequency is a fruitful avenue to enhance the efficiency.

Topics & Concepts

PhononPhotonSemiconductorQuantumPhysicsOptoelectronicsCoupling (piping)Range (aeronautics)ImpurityComponent (thermodynamics)Quantum mechanicsMaterials scienceComposite materialMetallurgyQuantum Information and CryptographyPhotonic and Optical DevicesDiamond and Carbon-based Materials Research
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