| 355 | 7 | 66 |
| 下载次数 | 被引频次 | 阅读次数 |
弱磁探测在材料科学、基础物理和磁强计等众多领域都具有重要的研究意义。由于金刚石氮空位(NV)色心的弱磁探测兼具高灵敏度与高空间分辨的优点,因此对利用Ib型金刚石NV色心系综进行磁检测的技术进行了研究。通过电子辐照并高温真空退火的方法制备了Ib型金刚石NV色心系综,并对其光致发光光谱进行了测试与分析;利用自主搭建的共聚焦系统成功检测了在不同微波功率作用下的NV色心系综电子自旋共振谱;测试并分析了常温常压中不同磁场条件下的NV色心系综电子自旋共振谱。结果表明,金刚石<100>晶轴方向的磁场使得NV色心系综基态的ms=+1态与ms=-1态的共振峰产生4.053 MHz/Gs的能级分裂,利用此金刚石NV色心系综可实现4.98μT的弱磁检测。
Abstract:The weak magnetic detection has important research significance in the fields of material science,basic physics,magnetometers and so on. Because the weak magnetic detection of nitrogen-vacancy(NV) center in diamond has the advantages of high sensitivity and high spatial resolution,the magnetic detection technology utilizing NV center ensembles in the type Ib diamond was studied. The NV center ensembles in type Ib diamonds were prepared by the electron irradiation and high temperature annealing in vacuum,and their photoluminescence spectra were tested and analyzed. And the electron spin resonance spectra of the NV center ensembles were successfully detected under the different microwave powers by the self-developed confocal system. Then,the electron spin resonance spectra of the NV center ensembles were tested and analyzed under different magnetic fields at the ambient temperature and pressure.The results show that the 4. 053 MHz/Gs energy level splitting of the NV center ensemble formants at ms=+ 1 and ms=-1 was produced when applying magnetic fields in diamond < 100 > crystal axial direction.The 4. 98 μT weak magnetic detection can be realized by using the NV center ensembles in diamond.
[1]SUTER D,JELEZKO F.Single-spin magnetic resonance in the nitrogen-vacancy center of diamond[J].Progress in Nuclear Magnetic Resonance Spectroscopy,2017,98/99:50-62.
[2]LUO M X,LI H R,LAI H,et al.Quantum computation based on photons with three degrees of freedom[J].Scientific Reports,2016,6:25977-1-25977-12.
[3]TEELING-SMITH R M,JUNG Y W,SCOZZARO N,et al.Electron paramagnetic resonance of a single NV nanodiamond attached to an individual biomolecule[J].Biophysical Journal,2015,110(9):2044-2052.
[4]BARRY J F,TURNER M J,SCHLOSS J M,et al.Optical magnetic detection of single-neuron action potentials using quantum defects in diamond[J].Proceedings of the National Academy of Sciences of the United States of America,2016,113(49):14133-14138.
[5]TAYLOR J M,CAPPELLARO P,CHILDRESS L,et al.Highsensitivity diamond magnetometer with nanoscale resolution[J].Nature Physics,2008,4(10):810-816.
[6]刘国宾,孙献平,顾思洪,等.高灵敏度原子磁力计研究进展[J].物理,2012,41(12):803-810.
[7]ABEYWARDANA C,STEPANOV V,CHO F H,et al.Electron spin resonance spectroscopy of small ensemble paramagnetic spins using a single nitrogen-vacancy center in diamond[J].Journal of Applied Physics,2016,120(12):123907-1-123907-15.
[8]LEDBETTER M P,JENSEN K,FISCHER R,et al.Gyroscopes based on nitrogen-vacancy centers in diamond[J].Physical Review:A,2012,86(5):27454-27475.
[9]许祥坤.基于金刚石氮空位发光中心的量子调控实验研究[D].合肥:中国科学技术大学,2016.
[10]张秀芝,王凯悦,李志宏,等.氮对金刚石缺陷发光的影响[J].物理学报,2015,8(24):390-394.
[11]ACOSTA V M,BAUCH E,LEDBETTER M P,et al.Diamonds with a high density of nitrogen-vacancy centers for magnetometry applications[J].Physical Review:B,2009,80(11):115202-1-115202-15.
[12]BALASUBRAMANIAN G,LAZARIEV A,ARUMUGAM S R,et al.Nitrogen-vacancy color center in diamond—emerging nanoscale applications in bioimaging and biosensing[J].Current Opinion in Chemical Biology,2014,20(36):69-77.
[13]邹志纯.亥姆霍兹线圈空间的磁场分布[J].西安邮电大学学报,2004,9(1):89-91.
[14]李荣斌.硼/氮原子共注入金刚石的原子级研究[J].物理学报,2007,56(1):395-399.
[15]SONG X R,WANG G Z,LIU X D,et al.Generation of nitrogen-vacancy color center in nanodiamonds by high tempe-rature annealing[J].Applied Physics Letters,2013,102(13):133109-1-133109-15.
[16]SU L J,FANG C Y,CHANG Y T,et al.Creation of high density ensembles of nitrogen-vacancy centers in nitrogen-rich type Ib nanodiamonds[J].Nanotechnology,2013,24(31):315702-1-315702-25.
[17]ORWA J O,AHARONOVICH I,JELEZKO F,et al.Nickel related optical centres in diamond created by ion implantation[J].Journal of Applied Physics,2010,107(9):401-418.
[18]RONDIN L,TETIENNE J P,HINGANT T,et al.Magnetometry with nitrogen-vacancy defects in diamond[J].Reports on Progress in Physics,2014,77(5):385-399.
[19]LAI N D,ZHENG D W,JELEZKO F,et al.Influence of a static magnetic field on the photoluminescence of an ensemble of nitrogen-vacancy color centers in a diamond single-crystal[J].Applied Physics Letters,2009,95(13):133101-1-133101-21.
基本信息:
DOI:10.13250/j.cnki.wndz.2018.01.008
中图分类号:TQ163
引用信息:
[1]林朝东,王芳,张少文,等.Ib型金刚石NV色心系综的制备及磁检测[J].微纳电子技术,2018,55(01):45-50.DOI:10.13250/j.cnki.wndz.2018.01.008.
基金信息:
国家自然科学基金资助项目(91336110,61274103,61503346)
2017-12-21
2017-12-21
2017-12-21