分子自旋的室温光学检测相干控制

Room-Temperature Optically Detected Coherent Control of Molecular Spins.

作者信息

Mena Adrian, Mann Sarah K, Cowley-Semple Angus, Bryan Emma, Heutz Sandrine, McCamey Dane R, Attwood Max, Bayliss Sam L

机构信息

James Watt School of Engineering, <a href="https://ror.org/00vtgdb53">University of Glasgow</a>, Glasgow, G12 8QQ, United Kingdom.

ARC Centre of Excellence in Exciton Science, School of Physics, <a href="https://ror.org/03r8z3t63">UNSW Sydney</a>, Sydney, 2052, New South Wales, Australia.

出版信息

Phys Rev Lett. 2024 Sep 20;133(12):120801. doi: 10.1103/PhysRevLett.133.120801.

DOI:10.1103/PhysRevLett.133.120801

PMID:39373412

Abstract

Optically interfaced molecular spins are a promising platform for quantum sensing and imaging. Key for such applications is optically detecting coherent spin manipulation at room temperature. Here, using the photoexcited triplet state of organic chromophores (pentacene doped in p-terphenyl), we optically detect coherent spin manipulation with photoluminescence contrasts exceeding 15% at room temperature, both in a molecular crystal and thin film. We further demonstrate how multifrequency spin control could enhance such systems. These results open opportunities for room-temperature quantum sensors that capitalize on the versatility of synthetic chemistry.

摘要

光学接口分子自旋是用于量子传感和成像的一个很有前景的平台。此类应用的关键在于在室温下对相干自旋操纵进行光学检测。在此，我们利用有机发色团（并五苯掺杂在对三联苯中）的光激发三重态，在室温下于分子晶体和薄膜中通过光致发光对比度超过15%的方式对相干自旋操纵进行了光学检测。我们还展示了多频自旋控制如何能够增强此类系统。这些结果为利用合成化学的多功能性的室温量子传感器带来了机遇。

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分子自旋的室温光学检测相干控制

Room-Temperature Optically Detected Coherent Control of Molecular Spins.

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