通过在金刚石中进行离子注入来设计单光子发射器。
Engineering single photon emitters by ion implantation in diamond.
作者信息
Naydenov B, Kolesov R, Batalov A, Meijer J, Pezzagna S, Rogalla D, Jelezko F, Wrachtrup J
出版信息
Appl Phys Lett. 2009 Nov 2;95(18):181109. doi: 10.1063/1.3257976. Epub 2009 Nov 5.
Abstract
Diamond provides unique technological platform for quantum technologies including quantum computing and communication. Controlled fabrication of optically active defects is a key element for such quantum toolkit. Here we report the production of single color centers emitting in the blue spectral region by high energy implantation of carbon ions. We demonstrate that single implanted defects show sub-poissonian statistics of the emitted photons and can be explored as single photon source in quantum cryptography. Strong zero phonon line at 470.5 nm allows unambiguous identification of this defect as interstitial-related TR12 color center.
摘要
戴蒙德为包括量子计算和通信在内的量子技术提供了独特的技术平台。光学活性缺陷的可控制造是这种量子工具包的关键要素。在此,我们报告通过高能注入碳离子产生在蓝光光谱区域发射的单色心。我们证明,单个注入的缺陷表现出发射光子的亚泊松统计特性,并且可以作为量子密码学中的单光子源进行研究。470.5nm处强烈的零声子线使得能够明确将此缺陷识别为间隙相关的TR12色心。
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