Towards all-electrical single photon source with set-reset gating protocols

Lin Tian; Francois Sfigakis; Arjun Shetty; Ho-Sung Kim; Nachiket Sherlekar; Sara Hosseini; Man Chu Tam; Brad van Kasteren; Brandon Buonacorsi; Zbigniew Wasilewski; Jonathan Baugh; Michael E. Reimer

doi:10.1117/12.2675750

19 July 2023 Towards all-electrical single photon source with set-reset gating protocols

Lin Tian, Francois Sfigakis, Arjun Shetty, Ho-Sung Kim, Nachiket Sherlekar, Sara Hosseini, Man Chu Tam, Brad van Kasteren, Brandon Buonacorsi, Zbigniew Wasilewski, Jonathan Baugh, Michael E. Reimer

Author Affiliations +

Proceedings Volume PC12633, Photonics for Quantum 2023; PC126330P (2023) https://doi.org/10.1117/12.2675750
Event: Photonics for Quantum, 2023, Rochester, New York, United States

Abstract

In this research, we presents a novel design for an all-electrical single photon emitter that utilizes a single electron pump and a lateral p-n junction based on an AlGaAs/GaAs heterostructure. The fundamental promise of single photon emission is achieved by injecting one and only one electron into the p-n junction, where one photon is generated after e-h radiative recombination. This ensures an intrinsically on-demand and deterministic single photon source. Up to GHz repetition rate is expected given the single electron pump has demonstrated quantized generation of electrons in the GHz range. We will present some promising stable EL emission after overcoming the charge accumulation problem in our dopant-free architecture.

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Lin Tian, Francois Sfigakis, Arjun Shetty, Ho-Sung Kim, Nachiket Sherlekar, Sara Hosseini, Man Chu Tam, Brad van Kasteren, Brandon Buonacorsi, Zbigniew Wasilewski, Jonathan Baugh, and Michael E. Reimer "Towards all-electrical single photon source with set-reset gating protocols", Proc. SPIE PC12633, Photonics for Quantum 2023, PC126330P (19 July 2023); https://doi.org/10.1117/12.2675750

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KEYWORDS

Design and modelling

Doping

Etching

Surface plasmons

Cryogenics

Diseases and disorders

Heterojunctions

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