钻石
氮空位中心
量子传感器
空位缺陷
量子
材料科学
中心(范畴论)
环境压力
光电子学
氮气
压力传感器
纳米技术
工程物理
物理
量子计算机
凝聚态物理
化学
量子网络
冶金
热力学
量子力学
结晶学
作者
Kin On Ho,King Cho Wong,Man Yin Leung,Yiu Yung Pang,Wai Kuen Leung,King Yau Yip,Wei Zhang,Jianyu Xie,Swee K. Goh,Sen Yang
摘要
Pressure has been established as a powerful way of tuning material properties and studying various exotic quantum phases. Nonetheless, measurements under pressure are no trivial matter. To ensure a stable pressure environment, several experimental restrictions must be imposed including the limited size of a sample chamber. These have created difficulties in assembling high-pressure devices and conducting measurements. Hence, novel sensing methods that are robust and compatible with high-pressure devices under pressure are highly in demand. In this review, we discuss the nitrogen-vacancy (NV) center in diamond as a versatile quantum sensor under pressure. The excellent sensitivity and superior resolution of the NV center enable exciting developments in recent years. The NV center has great potential in sensing under pressure, especially beneficial to magnetic-related measurements.
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