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Cryogenic Thermal Shock Effects on Optical Properties of Quantum Emitters in Hexagonal Boron Nitride

Solid-state quantum emitters are vital building blocks for quantum information science and quantum technology. Among various types of solid-state emitters discovered to date, color centers in hexagonal boron nitride have garnered tremendous traction in recent years, thanks to their environmental rob...

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Bibliographic Details
Published in:ACS applied materials & interfaces 2024-04, Vol.16 (15), p.19340-19349
Main Authors: Mai, Thi Ngoc Anh, Ali, Sajid, Hossain, Md Shakhawath, Chen, Chaohao, Ding, Lei, Chen, Yongliang, Solntsev, Alexander S., Mou, Hongwei, Xu, Xiaoxue, Medhekar, Nikhil, Tran, Toan Trong
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Language:English
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Summary:Solid-state quantum emitters are vital building blocks for quantum information science and quantum technology. Among various types of solid-state emitters discovered to date, color centers in hexagonal boron nitride have garnered tremendous traction in recent years, thanks to their environmental robustness, high brightness, and room-temperature operation. Most recently, these quantum emitters have been employed for satellite-based quantum key distribution. One of the most important requirements to qualify these emitters for space-based applications is their optical stability against cryogenic thermal shock. Such an understanding has, however, remained elusive to date. Here, we report on the effects caused by such thermal shock that induces random, irreversible changes in the spectral characteristics of the quantum emitters. By employing a combination of structural characterizations and density functional calculations, we attribute the observed changes to lattice strain caused by cryogenic temperature shock. Our study sheds light on the stability of the quantum emitters under extreme conditionsî—¸similar to those countered in outer space.
ISSN:1944-8244
1944-8252
DOI:10.1021/acsami.3c18032