Nitrogen-vacancy centers in diamond: discovery of additional electronic states

Materials for Quantum Technology Pub Date : 2024-07-10 DOI:10.1088/2633-4356/ad61b3

Minh-Tuan Luu, Ali Tayefeh Younesi, Ronald Ulbricht

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Abstract

Nitrogen-vacancy (NV) defect centers in diamond are key to applications in quantum sensing and quantum computing. They create localized electronic states in the diamond lattice with distinct population relaxation pathways following photoexcitation that ultimately enable its unique properties. The defect is known to exist in two charge states: neutral and negative, with respectively one and two known optically-active electronic transitions. Here, we report on the observation of a large number of hitherto undiscovered excited electronic states in both charge states as evidenced by distinct optical transitions in the infrared to ultraviolet part of the spectrum. These transitions are observed by monitoring the electronic relaxation of NV centers after photoexcitation using transient absorption spectroscopy, directly probing transient phenomena occurring on timescales from femtoseconds to microseconds. We also for the first time probed the electron transfer dynamics from the 3E state of NV− to nearby single-substitutional nitrogen defects hat leads to the well-known effect of NV photoluminescence quenching.

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金刚石中的氮空位中心：额外电子态的发现

金刚石中的氮空位（NV）缺陷中心是量子传感和量子计算应用的关键。它们在金刚石晶格中形成局部电子态，在光激发后具有独特的群体弛豫途径，最终使金刚石具有独特的特性。已知这种缺陷存在两种电荷状态：中性和负性，分别有一个和两个已知的光学活性电子跃迁。在此，我们报告了在这两种电荷态中观察到的大量迄今未被发现的激发电子态，它们在光谱的红外至紫外部分有明显的光学转变。这些跃迁是通过使用瞬态吸收光谱监测 NV 中心在光激发后的电子弛豫来观察的，直接探测了从飞秒到微秒级的瞬态现象。我们还首次探测了电子从 NV- 的 3E 态转移到附近的单体制氮缺陷的动态，这导致了众所周知的 NV 光致发光淬灭效应。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Materials for Quantum Technology

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