Entanglement redistribution of hyperon-antihyperon pair via sequential decay

TL;DR

This paper investigates how quantum entanglement redistributes during hyperon decay processes, revealing that entanglement can decrease but not vanish, and quantum discord may increase, highlighting the complex quantum dynamics in particle decays.

Contribution

It demonstrates entanglement redistribution and the potential increase of quantum discord during hyperon decay, providing new insights into quantum correlations in high-energy particle processes.

Findings

Entanglement decreases but is not completely lost during hyperon decay.

Quantum discord can increase even when entanglement does not.

Hyperon polarization significantly influences entanglement redistribution.

Abstract

Hyperon-antihyperon pairs produced in high energy electron-positron annihilation constitute a naturally spin-entangled system in the high energy regime. Recently, a probabilistic amplification of entanglement, termed autodistillation, has been found in the daughter baryon-antibaryon pairs from hyperon decay and is constrained by an upper boundary. This work demonstrates that the quantum entanglement in this process may be accompanied by a decrease, constrained by a lower boundary, but will not be completely lost. Thus, the entanglement of these systems undergoes redistribution within the phase space during the sequential decays of hyperons, and an important role of hyperon polarization is highlighted. By using the explicit spin density matrix of baryon pairs, it is also found that quantumness of the system characterized by quantum discord always have the possibility to increase during decay processes, even when entanglement evaluated by concurrence and negativity does not increase.