Engineering the Collapse of Lifetime Distribution of Nitrogen-Vacancy   Centers in Nanodiamonds

Hao Li; Jun-Yu Ou; Behrad Gholipour; JinKyu So; Davide Piccinotti,; Vassili Fedotov; Nikitas Papasimakis

arXiv:2104.09679·physics.optics·July 28, 2021

Engineering the Collapse of Lifetime Distribution of Nitrogen-Vacancy Centers in Nanodiamonds

Hao Li, Jun-Yu Ou, Behrad Gholipour, JinKyu So, Davide Piccinotti,, Vassili Fedotov, Nikitas Papasimakis

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TL;DR

This paper experimentally shows that embedding nanodiamonds in thin chalcogenide films significantly narrows the decay rate distribution of nitrogen-vacancy centers, enhancing their uniformity.

Contribution

It introduces a method to engineer the lifetime distribution of nitrogen-vacancy centers in nanodiamonds through embedding in chalcogenide films.

Findings

01

Decay rate distribution narrows over five times

02

Embedding in chalcogenide films improves uniformity

03

Potential for enhanced quantum applications

Abstract

We demonstrate experimentally that the distribution of the decay rates of nitrogen-vacancy centers in diamond becomes narrower by over five times for nanodiamonds embedded in thin chalcogenide films.

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