Magnetic field analysis in a diamond anvil cell for Meissner effect measurement by using the diamond NV~- center
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  • 英文篇名:Magnetic field analysis in a diamond anvil cell for Meissner effect measurement by using the diamond NV~- center
  • 作者:赵琳 ; 岳冬辉 ; 刘才龙 ; 王敏 ; 韩永昊 ; 高春晓
  • 英文作者:Lin Zhao;Donghui Yue;Cailong Liu;Min Wang;Yonghao Han;Chunxiao Gao;State Key Laboratory of Superhard Materials,Jilin University;
  • 英文关键词:negatively charged nitrogen-vacancy(NV-) centers;;diamond anvil cell;;superconductivity;;magnetic field detection
  • 中文刊名:ZGWL
  • 英文刊名:中国物理B
  • 机构:State Key Laboratory of Superhard Materials,Jilin University;
  • 出版日期:2019-03-15
  • 出版单位:Chinese Physics B
  • 年:2019
  • 期:v.28
  • 基金:supported by the National Key R&D Program of China(Grant No.2018YFA0305900);; the National Natural Science Foundation of China(Grant Nos.11774126,11674404,and 51772125)
  • 语种:英文;
  • 页:ZGWL201903019
  • 页数:4
  • CN:03
  • ISSN:11-5639/O4
  • 分类号:149-152
摘要
Diamond negatively charged nitrogen-vacancy(NV-) centers provide an opportunity for the measurement of the Meissner effect on extremely small samples in a diamond anvil cell(DAC) due to their high sensitivity in detecting the tiny change of magnetic field. We report on the variation of magnetic field distribution in a DAC as a sample transforms from normal to superconducting state by using finite element analysis. The results show that the magnetic flux density has the largest change on the sidewall of the sample, where NV-centers can detect the strongest signal variation of the magnetic field. In addition, we study the effect of magnetic coil placement on the magnetic field variation. It is found that the optimal position for the coil to generate the greatest change in magnetic field strength is at the place as close to the sample as possible.
        Diamond negatively charged nitrogen-vacancy(NV-) centers provide an opportunity for the measurement of the Meissner effect on extremely small samples in a diamond anvil cell(DAC) due to their high sensitivity in detecting the tiny change of magnetic field. We report on the variation of magnetic field distribution in a DAC as a sample transforms from normal to superconducting state by using finite element analysis. The results show that the magnetic flux density has the largest change on the sidewall of the sample, where NV-centers can detect the strongest signal variation of the magnetic field. In addition, we study the effect of magnetic coil placement on the magnetic field variation. It is found that the optimal position for the coil to generate the greatest change in magnetic field strength is at the place as close to the sample as possible.
引文
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