Electron Spin Resonance of Nitrogen-Vacancy Defects Embedded in Single Nanodiamonds in an ABEL Trap

Metin Kayci; Huan-Cheng Chang; Aleksandra Radenovic

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Electron Spin Resonance of Nitrogen-Vacancy Defects Embedded in Single Nanodiamonds in an ABEL Trap

机译：在ABEL陷阱中嵌入单个纳米金刚石中的氮空位缺陷的电子自旋共振。

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Room temperature optically detected magnetic resonance of a single quantum object with nanoscale position control is an outstanding challenge in many areas, particularly in the life sciences. We introduce a novel approach to control the nitrogen-vacancy (NV) centers hosted in a single fluorescent nanodiamond (FND) for which an anti-Brownian electrokinetic trap (ABEL) performs the position control and an integrated radiofrequency (RF) circuit provides enhanced magnetic flux density for ensemble spin-state control simultaneously. We demonstrate static magnetic field sensing in platforms compatible with ABEL trap. With the advances in the synthesis and functionalization of stable arbitrarily small FNDs, we foresee the use of our device for the trapping and manipulation of single molecular-sized FNDs in aqueous solution.

机译：在许多领域，特别是在生命科学中，具有纳米级位置控制的室温光学检测单个量子物体的磁共振是一个巨大的挑战。我们介绍了一种控制位于单个荧光纳米金刚石（FND）中的氮空位（NV）中心的新颖方法，该方法可通过反布朗电动势阱（ABEL）进行位置控制，而集成的射频（RF）电路可增强磁场强度同时进行整体自旋状态控制的磁通密度。我们在与ABEL陷阱兼容的平台上演示了静磁场感应。随着稳定的任意小的FND的合成和功能化的进步，我们预见到我们的装置将用于捕获和处理水溶液中的单分子大小的FND。

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《Nano letters》 |2014年第9期|共7页
作者
Metin Kayci; Huan-Cheng Chang; Aleksandra Radenovic;
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正文语种 eng
中图分类特种结构材料;物理化学（理论化学）、化学物理学;
关键词
Anti-Brownian electrokinetic trap (ABEL); fluorescent nanodiamonds (FND); nitrogen-vacancy; nanophotonics; electron spin resonance (ESR);

机译：抗布朗电动势阱（ABEL）;荧光纳米金刚石（FND）;氮空位;纳米光子学;电子自旋共振（ESR）;

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专利

1. Electron Spin Resonance of Nitrogen-Vacancy Defects Embedded in Single Nanodiamonds in an ABEL Trap [J] . Metin Kayci, Huan-Cheng Chang, Aleksandra Radenovic Nano letters . 2014,第9期

机译：在ABEL陷阱中嵌入单个纳米金刚石中的氮空位缺陷的电子自旋共振。
2. Molecular imaging by optically detected electron spin resonance of nitrogen-vacancies in nanodiamonds [J] . Hegyi A., Yablonovitch E. Nano letters . 2013,第3期

机译：通过光学检测纳米金刚石中氮空位的电子自旋共振进行分子成像
3. Electron spin resonance spectroscopy of small ensemble paramagnetic spins using a single nitrogen-vacancy center in diamond [J] . Chathuranga Abeywardana, Viktor Stepanov, Franklin H. Cho, Journal of Applied Physics . 2016,第12期

机译：使用单个氮原子空位中心的小整体顺磁自旋的电子自旋共振谱
4. Optically detected magnetic resonance of a single Nitrogen-Vacancy electronic spin in diamond nanocrystals [C] . Conference on Lasers and Electro-Optics Europe . 2009

机译：在金刚石纳米晶体中的单个氮空位电子旋转的光学检测磁共振
5. Single Molecule Electron Paramagnetic Resonance and Other Sensing and Imaging Applications with Nitrogen-Vacancy Nanodiamond. [D] . Teeling-Smith, Richelle M. 2015

机译：氮空位纳米金刚石的单分子电子顺磁共振和其他传感和成像应用。
6. Electron spin resonance of nitrogen-vacancy centers in optically trapped nanodiamonds [O] . Viva R. Horowitz, Benjamín J. Alemán, David J. Christle, 2012

机译：光学俘获纳米金刚石中氮空位中心的电子自旋共振
7. Electron spin resonance of nitrogen-vacancy centers in optically trapped nanodiamonds [O] . Horowitz, Viva R., Alemán, Benjamín J., Christle, David J., 2012

机译：光学捕获的氮空位中心的电子自旋共振纳米金刚石
8. ELECTRON SPIN RESONANCE STUDY OF RADICAL PAIRS TRAPPED IN IRRADIATED SINGLE CRYSTALS OF DIMETHYLGLYOXIME AT LIQUID-NITRO GEN TEMPERATURE [R] . Yukio KURITA 1967

机译：基于液体 - 硝化物发光的二甲基甘氨酸辐照单晶体中自由基的电子自旋共振研究

Electron Spin Resonance of Nitrogen-Vacancy Defects Embedded in Single Nanodiamonds in an ABEL Trap

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