Scrambling and Entangling Spinning Particles

• URL: http://arxiv.org/abs/2208.12128v3
• Date: Wed, 21 Sep 2022 12:10:13 GMT
• Title: Scrambling and Entangling Spinning Particles
• Authors: Ling-Yan Hung, Kaixin Ji, Tianheng Wang
• Abstract summary: We revisit the gravitational eikonal amplitudes of two scattering spinning particles. We inspect their scrambling power in the spin spaces that is quantified through the tripartite information.
• Score: 0.8379286663107844
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: In this paper we revisit the gravitational eikonal amplitudes of two scattering spinning particles and inspect their scrambling power in the spin spaces that is quantified through the tripartite information. We found that in the non-relativistic limit and a special high-energy limit the leading contribution is a quantity that is universal and theory independent. The minimal coupling is singled out with minimal scrambling in a different high momenta limit. We also inspected the initial state dependence of entanglement generation and found that the spin coherent state with vanishing spin may not necessarily be the hardest to entangle. Interestingly, among a family of mixed states, the only P-rep state there known to be the best approximation of classical mixed states was singled out as one with minimal entanglement generated.

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