Phonon dephasing and spectral diffusion of quantum emitters in hexagonal boron nitride

Simon White; Connor Stewart; Alexander S. Solntsev; Chi Li; Milos Toth; Mehran Kianinia; Igor Aharonovich

doi:10.1364/OPTICA.431262

Phonon dephasing and spectral diffusion of quantum emitters in hexagonal boron nitride

Simon White, Connor Stewart, Alexander S. Solntsev, Chi Li, Milos Toth, Mehran Kianinia, Igor Aharonovich

Research output: Contribution to journal › Article › Research › peer-review

29 Citations (Scopus)

Abstract

Quantum emitters in hexagonal boron nitride (hBN) are emerging as bright and robust sources of single photons for applications in quantum optics. In this work we present detailed studies on the limiting factors to achieve Fourier transform limited spectral lines. Specifically, we study phonon dephasing and spectral diffusion of quantum emitters in hBN via resonant excitation spectroscopy at cryogenic temperatures. We show that the linewidths of hBN quantum emitters are phonon broadened, even at 5 K, with typical values of the order of ∼1 GHz. While spectral diffusion dominates at increasing pump powers, it can be minimized by working well below saturation excitation power. Our results are important for future utilization of quantum emitters in hBN for quantum interference experiments.

Original language	English
Pages (from-to)	1153-1158
Number of pages	6
Journal	Optica
Volume	8
Issue number	9
DOIs	https://doi.org/10.1364/OPTICA.431262
Publication status	Published - Sept 2021
Externally published	Yes

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abstract = "Quantum emitters in hexagonal boron nitride (hBN) are emerging as bright and robust sources of single photons for applications in quantum optics. In this work we present detailed studies on the limiting factors to achieve Fourier transform limited spectral lines. Specifically, we study phonon dephasing and spectral diffusion of quantum emitters in hBN via resonant excitation spectroscopy at cryogenic temperatures. We show that the linewidths of hBN quantum emitters are phonon broadened, even at 5 K, with typical values of the order of ∼1 GHz. While spectral diffusion dominates at increasing pump powers, it can be minimized by working well below saturation excitation power. Our results are important for future utilization of quantum emitters in hBN for quantum interference experiments.",

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AU - Stewart, Connor

AU - Solntsev, Alexander S.

AU - Li, Chi

AU - Toth, Milos

AU - Kianinia, Mehran

AU - Aharonovich, Igor

N1 - Funding Information: Funding. Air Force Office of Scientific Research (FA2386-20-1-4014); Australian Research Council (CE200100010, DP190101058). Publisher Copyright: © 2021 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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N2 - Quantum emitters in hexagonal boron nitride (hBN) are emerging as bright and robust sources of single photons for applications in quantum optics. In this work we present detailed studies on the limiting factors to achieve Fourier transform limited spectral lines. Specifically, we study phonon dephasing and spectral diffusion of quantum emitters in hBN via resonant excitation spectroscopy at cryogenic temperatures. We show that the linewidths of hBN quantum emitters are phonon broadened, even at 5 K, with typical values of the order of ∼1 GHz. While spectral diffusion dominates at increasing pump powers, it can be minimized by working well below saturation excitation power. Our results are important for future utilization of quantum emitters in hBN for quantum interference experiments.

AB - Quantum emitters in hexagonal boron nitride (hBN) are emerging as bright and robust sources of single photons for applications in quantum optics. In this work we present detailed studies on the limiting factors to achieve Fourier transform limited spectral lines. Specifically, we study phonon dephasing and spectral diffusion of quantum emitters in hBN via resonant excitation spectroscopy at cryogenic temperatures. We show that the linewidths of hBN quantum emitters are phonon broadened, even at 5 K, with typical values of the order of ∼1 GHz. While spectral diffusion dominates at increasing pump powers, it can be minimized by working well below saturation excitation power. Our results are important for future utilization of quantum emitters in hBN for quantum interference experiments.

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Phonon dephasing and spectral diffusion of quantum emitters in hexagonal boron nitride

Abstract

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