Quantum Spin Coupled Entanglement and Space of Gravitational Degrees of Freedom

Suresh Kumar .S
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Abstract

It is argued, based on indications from recent studies,as reported, that the degree of entanglement in vortex fields represented by spin orbit coupling is related to gravitational degree of freedom on vector vortex fields traversing spatial distances. Therefore the spin coupled quantum entanglement entropy can be understood as a gravity measurement in local inertial frames. The space of gravitational degrees of freedom has connections to quantum entanglement of spin coupled vortex flows. This relates quantum spin coupled entanglement with space time geometry. A gravity metric can have correspondence with quantum spin coupled entanglement.
量子自旋耦合纠缠与引力自由度空间
根据近年来的研究表明,以自旋轨道耦合为代表的涡旋场的纠缠度与矢量涡旋场在空间距离上的引力自由度有关。因此,自旋耦合量子纠缠熵可以理解为局部惯性系中的重力测量。重力自由度空间与自旋耦合涡旋流的量子纠缠有联系。这将量子自旋耦合纠缠与时空几何联系起来。引力度规可以与量子自旋耦合纠缠相对应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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