Superluminal Hydrogen Atom in a Constant Magnetic Field in (3+1)-dimensional Spacetime (II)

British journal of applied science & technology Pub Date : 2017-01-10 DOI:10.9734/BJAST/2017/34195
E. Gazoya
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Abstract

In this paper, we have checked Stern-Gerlach experiment with the aim to study generic effect of an applied magnetic field onto transversely directed beam of hydrogen-like atoms. The ultrarelativistic phenomenon of spin of a Dirac particle (especially, electron spin) producing a continuum of linear angular momentum with the known result of superluminal propagation, suggests the feasibility of similar dynamics for a charged hydrogen-like particle under applied magnetic field, in spacetime. Another mechanism, very important but popularly less comprehensible, which sustains this linear momentum is known to
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(3+1)维时空中恒定磁场中的超光速氢原子(II)
在本文中,我们检查了Stern-Gerlach实验,目的是研究施加磁场对类氢原子横向束的一般影响。狄拉克粒子的自旋(特别是电子自旋)产生连续线性角动量的超相对论现象,以及已知的超光速传播结果,表明在施加磁场的情况下,带电类氢粒子在时空中进行类似动力学的可行性。另一种维持这种线性动量的机制,非常重要,但普遍不太容易理解,已知
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British journal of applied science & technology
British journal of applied science & technology
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