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Spin-Spin Interactions in Gauge Theory of Gravity, Violation of Weak Equivalence Principle and New Classical Test of General Relativity 被引量:1
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作者 WU Ning 《Communications in Theoretical Physics》 SCIE CAS CSCD 2008年第6期1533-1540,共8页
For a long time, it has been generally believed that spin-spin interactions can only exist in a theory where Lorentz symmetry is gauged, and a theory with spin-spin interactions is not perturbatively renormalizable. B... For a long time, it has been generally believed that spin-spin interactions can only exist in a theory where Lorentz symmetry is gauged, and a theory with spin-spin interactions is not perturbatively renormalizable. But this is not true. By studying the motion of a spinning particle in gravitational field, it is found that there exist spin-spin interactions in gauge theory of gravity. Its mechanism is that a spinning particle will generate gravitomagnetic field in space-time, and this gravitomagnetic field will interact with the spin of another particle, which will cause spin-spin interactions. So, spin-spin interactions are transmitted by gravitational field. The form of spin-spin interactions in post Newtonian approximations is deduced. This result can also be deduced from the Papapetrou equation. This kind of interaction will not affect the renormalizability of the theory. The spin-spin interactions will violate the weak equivalence principle, and the violation effects are detectable. An experiment is proposed to detect the effects of the violation of the weak equivalence principle. 展开更多
关键词 spin-spin interactions weak equivalence principle equation of motion of a spinning particle experimental test of gravity theory post-Newtonian approximation
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Effect of the Spin-Spin Interaction on the Coulomb’s Law: Application to Ferromagnetism
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作者 Voicu Dolocan Voicu Octavian Dolocan 《World Journal of Condensed Matter Physics》 2012年第3期117-123,共7页
In this work we present a model for the determination of the interaction energy for triplet and singlet states in atoms with incomplete filled shells. Our model includes the modification of the Coulomb’s law by the i... In this work we present a model for the determination of the interaction energy for triplet and singlet states in atoms with incomplete filled shells. Our model includes the modification of the Coulomb’s law by the interaction between the magnetic moments of the electrons. We find that the energy of the triplet state is lower than the energy of the singlet state. We calculate the interaction energy between the electrons from the adjacent atoms in fcc lattices and we find that the minimum interaction energy is attained for the triplet state. The result is presented for the interaction between the electrons of the first coordination group and those of the second coordination group. The interaction energy which aligns the spins is used to evaluate the Curie temperature in a mean field model. 展开更多
关键词 spin-spin interaction MAGNETIC MOMENT FERROMAGNETISM
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氢分子离子超精细结构理论综述
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作者 钟振祥 《物理学报》 SCIE EI CAS CSCD 北大核心 2024年第20期47-66,共20页
通过氢分子离子振转光谱的高精度实验测量和理论计算,可以精确确定基本物理常数,如质子-电子质量比、氘核-电子质量比、里德伯常数、以及质子和氘核的电荷半径.氢分子离子光谱包含丰富的超精细结构,为了从光谱中提取物理信息,我们不仅... 通过氢分子离子振转光谱的高精度实验测量和理论计算,可以精确确定基本物理常数,如质子-电子质量比、氘核-电子质量比、里德伯常数、以及质子和氘核的电荷半径.氢分子离子光谱包含丰富的超精细结构,为了从光谱中提取物理信息,我们不仅需要研究振转光谱跃迁理论,还需要研究超精细结构理论.本文回顾了氢分子离子精密光谱的实验和理论研究历程,着重介绍了氢分子离子超精细结构的研究历史和现状.在20世纪的下半叶就有了关于氢分子离子超精细劈裂的领头项Breit-Pauli哈密顿量的理论.随着21世纪初非相对论量子电动力学(NRQED)的发展,氢分子离子超精细结构的高阶修正理论也得到了系统的发展,并于最近应用到H_(2)^(+)和HD^(+)体系中,其中包括mα^(7) ln(α)阶量子电动力学(QED)修正.对于H_(2)^(+),超精细结构理论计算经过数十年的发展,可以与20世纪的相应实验测量符合.对于HD^(+),最近发现超精细劈裂实验测量和理论计算存在一定的偏差,且无法用mα^(7)阶非对数项的理论误差来解释.理解这种偏差一方面需要更多的实验来相互检验,另一方面对理论也需要进行独立验证并发展mα^(7)阶非对数项理论以进一步减小理论误差. 展开更多
关键词 氢分子离子 超精细结构 量子电动力学 (QED) 修正 自旋-轨道、自旋-自旋相互作用
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Anisotropic Effects on Magnetoelastic Transition in Magnetic Molecular Rings
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作者 李鹏飞 陈宇光 陈鸿 《Chinese Physics Letters》 SCIE CAS CSCD 2006年第3期712-715,共4页
We numerically study the anisotropic effects on the magnetoelastic transition in an S = 1/2 XXZ model with a finite lattice number. It is found that the order of the magnetoelastic transition is strongly affected by t... We numerically study the anisotropic effects on the magnetoelastic transition in an S = 1/2 XXZ model with a finite lattice number. It is found that the order of the magnetoelastic transition is strongly affected by the anisotropy parameter λ and there may exist a critical λe dividing the first-order transition and the continuous transition. 展开更多
关键词 spin-spin interactions GROUND-STATE ENERGY 1-DIMENSIONAL CHAIN HEISENBERG CHAIN QUANTUM VORTICES LATTICE
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