Abstract Micro-manipulations of nanodiamonds (NDs) containing Nitrogen-Vacancy (NV) centers are here reviewed. Various methods such as optical tweezers, electro-kinetic trap, ions traps, optofluidics and plasmonics applied to the specific nanomaterial are reviewed, focusing on the advantages and achievements in controlling the NDs positioning for magnetic sensing. These approaches are relevant to extend magnetic sensing and imaging in different fluid environments. Levitated NDs in vacuum using optical tweezers or ions traps are also reviewed for applications in cavity optomechanics towards establishing ultra-sensitive mechanical spin hybrid systems or nano-optomechanics devices. The current demonstrations of trapped or levitated NDs containing NV centers are relevant to fundamental studies of quantum spin-photon and mechanical systems coupling but have not yet been applied directly to biological systems, as these fields of applications present several challenges.

中文翻译：

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用于量子应用的含有 NV 中心的纳米金刚石的微操作

摘要 本文综述了含氮空位 (NV) 中心的纳米金刚石 (ND) 的微操作。综述了应用于特定纳米材料的光镊、电动势阱、离子阱、光流体和等离子体激元等各种方法，重点介绍了在控制磁传感 ND 定位方面的优势和成就。这些方法与扩展不同流体环境中的磁传感和成像有关。还审查了使用光镊或离子阱在真空中悬浮的 ND 在腔光机械中的应用，以建立超灵敏机械自旋混合系统或纳米光机械设备。