Journal of High Energy Physics (May 2023)
Quantum state tomography, entanglement detection and Bell violation prospects in weak decays of massive particles
Abstract
Abstract A rather general method for determining the spin density matrix of a multi-particle system from angular decay data is presented. The method is based on a Bloch parameterisation of the d-dimensional generalised Gell-Mann representation of ρ and exploits the associated Wigner- and Weyl-transforms on the sphere. Each parameter of a (possibly multipartite) spin density matrix can be measured from a simple average over an appropriate set of experimental angular decay distributions. The general procedures for both projective and non-projective decays are described, and the Wigner P and Q symbols calculated for the cases of spin-half, spin-one, and spin-3/2 systems. The methods are used to examine Monte Carlo simulations of pp collisions for bipartite systems: pp → W + W − , pp → ZZ, pp → ZW +, pp → W + t ¯ $$ {W}^{+}\overline{t} $$ , t t ¯ $$ t\overline{t} $$ , and those from the Higgs boson decays H → WW * and H → ZZ *. Measurements are proposed for entanglement detection, exchange symmetry detection and Bell inequality violation in bipartite systems.
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