Electronic ground state of Ni-2(+)

Zamudio-Bayer V.; Lindblad R.; Buelow C.; Leistner G.; Terasaki A.; von Issendorff B.; Lau J. T.

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Electronic ground state of Ni-2(+)

机译：Ni-2的电子地面状态（+）

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The (4)Phi(9/2) ground state of the Ni-2(+) diatomic molecular cation is determined experimentally from temperature and magnetic-field-dependent x-ray magnetic circular dichroism spectroscopy in a cryogenic ion trap, where an electronic and rotational temperature of 7.4 +/- 0.2 K was reached by buffer gas cooling of the molecular ion. The contribution of the spin dipole operator to the x-ray magnetic circular dichroism spin sum rule amounts to 7 T-z = 0.17 +/- 0.06 mu(B) per atom, approximately 11% of the spin magnetic moment. We find that, in general, homonuclear diatomic molecular cations of 3d transition metals seem to adopt maximum spin magnetic moments in their electronic ground states. Published by AIP Publishing.

机译：Ni-2（+）硅藻分子阳离子的（4）PHI（9/2）研磨阳离子在低温离子阱中实验从温度和磁场依赖性X射线磁性圆形二色二倍体光谱法测定，其中电子通过分子离子的缓冲气体冷却达到7.4 +/- 0.2k的旋转温度。旋转偶极型操作员对X射线磁性圆形二色性旋转规则的贡献量为每次7T-Z = 0.17 +/-0.06μ（b），约11％的旋转磁矩。我们发现，一般而言，3D过渡金属的同核硅藻分子阳离子似乎在其电子地面状态中采用了最大的旋转磁矩。通过AIP发布发布。

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来源
《The Journal of Chemical Physics》 |2016年第19期|共5页
作者
Zamudio-Bayer V.; Lindblad R.; Buelow C.; Leistner G.; Terasaki A.; von Issendorff B.; Lau J. T.;
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作者单位

Helmholtz Zentrum Berlin Mat &

Energie Inst Methoden &

Instrumentierung Forsch Synchrotr D-12489 Berlin Germany;

Helmholtz Zentrum Berlin Mat &

Energie Inst Methoden &

Instrumentierung Forsch Synchrotr D-12489 Berlin Germany;

Helmholtz Zentrum Berlin Mat &

Energie Inst Methoden &

Instrumentierung Forsch Synchrotr D-12489 Berlin Germany;

Helmholtz Zentrum Berlin Mat &

Energie Inst Methoden &

Instrumentierung Forsch Synchrotr D-12489 Berlin Germany;

Toyota Technol Inst Cluster Res Lab Ichikawa Chiba 2720001 Japan;

Univ Freiburg Inst Phys D-79104 Freiburg Germany;

Helmholtz Zentrum Berlin Mat &

Energie Inst Methoden &

Instrumentierung Forsch Synchrotr D-12489 Berlin Germany;

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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
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Electronic ground state of Ni-2(+)

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