论文信息 - Relativistic entanglement of quantum states and nonlocality of Einstein-Podolsky-Rosen(EPR) paradox

Relativistic entanglement of quantum states and nonlocality of Einstein-Podolsky-Rosen(EPR) paradox

Relativistic bipartite entangled quantum states is studied to show that Nature doesn't favor nonlocality for massive particles in the ultra-relativistic limit. We found that to an observer (Bob) in a moving frame S', the entangled Bell state shared by Alice and Bob appears as the superposition of the Bell bases in the frame S' due to the requirement of the special relativity. It is shown that the entangled pair satisfies the Bell's inequality when the boost speed approaches the speed of light, thus providing a counter example for nonlocality of Einstein-Podolsky-Rosen(EPR) paradox.

Doyeol Ahn | Sung Woo Hwang | Hyuk-jae Lee

[1] S. Weinberg. The Quantum Theory of Fields: THE CLUSTER DECOMPOSITION PRINCIPLE , 1995 .

[2] F. Wilczek. Quantum Field Theory , 1998, hep-th/9803075.

[3] L. Ryder,et al. Quantum Field Theory , 2001, Foundations of Modern Physics.

[4] Howard E. Brandt,et al. Quantum computation and information : AMS Special Session Quantum Computation and Information, January 19-21, 2000, Washington, D.C. , 2002 .

[5] F. R. Halpern. Special relativity and quantum mechanics , 1968 .

[6] L. Infeld. Quantum Theory of Fields , 1949, Nature.