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Entanglement and scattering in quantum electrodynamics: S-matrix information from an entangled spectator particle

Published 2 Dec 2021 in quant-ph, hep-ph, and hep-th | (2112.01300v2)

Abstract: We consider a general quantum field relativistic scattering involving two half spin fermions, $A$ and $B$, which are initially entangled with another fermion $C$ that does not participate in the scattering dynamics. We construct general expressions for the reduced spin matrices for the out-state considering a general tripartite spin-entangled state. In particular we study an inelastic QED process at tree-level, namely $e-e+\rightarrow \mu- \mu+$ and a half spin fermion $C$ as an spectator particle which can be entangled to the $AB$ system in the following ways: W state, GHZ state, $|\text{A}\alpha \rangle \otimes |\Psi{\pm} \rangle_{\text{BC}}$ and $|\text{A}\alpha \rangle \otimes |\Phi{\pm} \rangle_{\text{BC}}$, where ${|\Psi{\pm} \rangle,|\Phi{\pm} \rangle}$ are the Bell basis states and $|\text{A}\alpha \rangle$ is a spin superposition state of system $A$. We calculate the von-Neumann entropy variation before and after the scattering for the particle $C$ and show that spin measurements in $C$ contain numerical information about the total cross section of the process. We compare the initial states W and GHZ as well as study the role played by the parameter $\alpha$ in the evaluation of the entropy variations and the cross section encoded in the spectator particle.

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