钻石
量子传感器
光电子学
量子
材料科学
纳米技术
计算机科学
物理
量子信息
量子力学
量子网络
复合材料
作者
Yuta Kainuma,Yuji Hatano,Takayuki Shibata,Naota Sekiguchi,Akimichi Nakazono,Hiromitsu Kato,Shinobu Onoda,Takeshi Ohshima,Mutsuko Hatano,Takayuki Iwasaki
标识
DOI:10.1002/qute.202300456
摘要
Abstract This study proposes compact, highly sensitive, and stable diamond quantum sensors for a wide range of applications, including biomedical and energy electronics. For enhanced sensitivity and alignment precision within the objective field, a high‐quality, (111)‐oriented 12 C‐enriched chemical vapor deposition (CVD) diamond, featuring a nitrogen‐vacancy (NV) axis in the (111) direction, is employed as the sensor. To increase the fluorescence collection efficiency, the laser beam is irradiated from the side surface of the CVD diamond, and fluorescence is detected using a compound parabolic concentrator (CPC) lens. The floor noise level of the magnetic field signal is 44 pT/Hz 0.5 . An Allan deviation of 1.2 pT over 1000 s of averaging demonstrates stability. This is attributable to the integration of a balancing circuit to cancel out laser noise, alongside mechanisms to compensate for temperature fluctuations and a copper housing to shield against electromagnetic field noise.
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