High-Purity Single Photon Emitter in Aluminum Nitride Photonic Integrated Circuit

Benjamin Lienhard; Tsung-Ju Lu; Kwang-Yong Jeong; Hyowon Moon; Ava Iranmanesh; Gabriele Grosso; Dirk Englund

2017 European Conference on Lasers and Electro-Optics and European Quantum Electronics Conference
(Optica Publishing Group, 2017),
paper EA_6_6

High-Purity Single Photon Emitter in Aluminum Nitride Photonic Integrated Circuit

Benjamin Lienhard, Tsung-Ju Lu, Kwang-Yong Jeong, Hyowon Moon, Ava Iranmanesh, Gabriele Grosso, and Dirk Englund

European Quantum Electronics Conference 2017

Munich Germany
25–29 June 2017
ISBN: 978-1-5090-6736-7

From the session
Quantum Light from Solid State Emitters (EA_6)

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B. Lienhard, T. Lu, K. Jeong, H. Moon, A. Iranmanesh, G. Grosso, and D. Englund, "High-Purity Single Photon Emitter in Aluminum Nitride Photonic Integrated Circuit," in 2017 European Conference on Lasers and Electro-Optics and European Quantum Electronics Conference, (Optica Publishing Group, 2017), paper EA_6_6.

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Abstract

Efficient, on-demand, and robust single photon emitters (SPEs) are important to a wide varity of applications in quantum information processing [1]. Over the past decade, color centers in solid-state systems have emerged as excellent SPEs [2] and have also been shown to provide optical access to internal spin states at room and cyogenic temperatures. Color centers in diamond [3] and silicon carbide [4] are among the most intensively studied SPEs. Recently, other cost-efficient wide-bandgap materials have become attractive as potential host materials. Theoretical calculations show that aluminum nitride (AlN) with a bandgap of 6.015 eV can serve as a stable environment for well isolated SPEs with optically accessible spin states [5].

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