1. Impact of parity violation on quantum entanglement and Bell nonlocality
- Author
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Du, Yong, He, Xiao-Gang, Liu, Chia-Wei, and Ma, Jian-Ping
- Subjects
High Energy Physics - Phenomenology ,High Energy Physics - Experiment ,Quantum Physics - Abstract
Quantum entanglement (QE) and Bell inequalities (BI) have been extensively studied for interactions that conserve parity (P), while their interplay with P-violating ones remains underexplored. We find P violation leads to a preference for particular spin combinations and has significant effects on QE and the extent of BI violation. Within the quantum field theory (QFT) framework, for spin-0 particles decaying into two fermions, parameters for the concurrence and the BI for the Clauser-Horne-Shimony-Holt case are found to be $\sqrt{1 - \alpha^2}$ and $2 \sqrt{2 - \alpha^2}$, respectively, where $-1\leq \alpha\ \leq 1$ quantifies the size of P violation. For spin-1 particle decays, we find that P-violating interactions introduce effects similar to those in the spin-0 case. Without knowledge from the QFT, for the spin-0 case, the general form of density matrices requires measuring only one parameter for P-conserving decays and three otherwise. For spin-1 cases, there would be nine parameters in general. We further study the overlooked effect on QE and BI induced by the magnetic field in detectors and find it essential for a genuine test of P and CP symmetries., Comment: 5 pages, 1 table, 3 figures
- Published
- 2024