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Atomistic defects as single-photon emitters in atomically thin MoS2

Katja Barthelmi, Julian Klein, Alexander Hötger, Lukas Sigl, Florian Sigger, Elmar Mitterreiter, Sergio I. Rey, Samuel Gyger, Michael Lorke, Matthias Florian, F. Jahnke, Takashi Taniguchi, Kenji Watanabe, V. Zwiller, Klaus D. Jöns, Ursula Wurstbauer, Christoph Kastl, Alexander Weber‐Bargioni, Jonathan J. Finley, Kai Müller, Alexander W. Holleitner

2020Applied Physics Letters97 citationsDOI

Abstract

Precisely positioned and scalable single-photon emitters (SPEs) are highly desirable for applications in quantum technology. This Perspective discusses single-photon-emitting atomistic defects in monolayers of MoS2 that can be generated by focused He-ion irradiation with few nanometers positioning accuracy. We present the optical properties of the emitters and the possibilities to implement them into photonic and optoelectronic devices. We showcase the advantages of the presented emitters with respect to atomistic positioning, scalability, long (microsecond) lifetime, and a homogeneous emission energy within ensembles of the emitters. Moreover, we demonstrate that the emitters are stable in energy on a timescale exceeding several weeks and that temperature cycling narrows the ensembles' emission energy distribution.

Topics & Concepts

MicrosecondMaterials sciencePhotonicsPhotonOptoelectronicsNanometreMonolayerQuantum dotNanotechnologyPhysicsOpticsComposite material2D Materials and ApplicationsQuantum Information and CryptographyDiamond and Carbon-based Materials Research
Atomistic defects as single-photon emitters in atomically thin MoS2 | Litcius