Tunable quantum emitters on large-scale foundry silicon photonics

Bibliographic Details
Title:	Tunable quantum emitters on large-scale foundry silicon photonics
Authors:	Larocque, Hugo, Buyukkaya, Mustafa Atabey, Errando-Herranz, Carlos, Harper, Samuel, Carolan, Jacques, Lee, Chang-Min, Richardson, Christopher J. K., Leake, Gerald L., Coleman, Daniel J., Fanto, Michael L., Waks, Edo, Englund, Dirk
Publication Year:	2023
Collection:	Physics (Other) Quantum Physics
Subject Terms:	Physics - Optics, Quantum Physics
More Details:	Controlling large-scale many-body quantum systems at the level of single photons and single atomic systems is a central goal in quantum information science and technology. Intensive research and development has propelled foundry-based silicon-on-insulator photonic integrated circuits to a leading platform for large-scale optical control with individual mode programmability. However, integrating atomic quantum systems with single-emitter tunability remains an open challenge. Here, we overcome this barrier through the hybrid integration of multiple InAs/InP microchiplets containing high-brightness infrared semiconductor quantum dot single photon emitters into advanced silicon-on-insulator photonic integrated circuits fabricated in a 300~mm foundry process. With this platform, we achieve single photon emission via resonance fluorescence and scalable emission wavelength tunability through an electrically controlled non-volatile memory. The combined control of photonic and quantum systems opens the door to programmable quantum information processors manufactured in leading semiconductor foundries. Comment: 9 pages, 4 figures
Document Type:	Working Paper
Access URL:	http://arxiv.org/abs/2306.06460
Accession Number:	edsarx.2306.06460
Database:	arXiv

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