Mutual Intolerance Effect in Entangled Qubit Pairs

TL;DR

This paper investigates the coherence behavior of entangled qubit pairs, revealing a mutual intolerance effect where local coherence remains zero despite global coherence changes, challenging existing rules.

Contribution

It introduces the concept of mutual intolerance in entangled qubits, demonstrating that local coherence can stay zero while global coherence varies, across different physical systems.

Findings

Global coherence varies with entanglement strength

Local coherence remains zero despite global changes

Mutual intolerance is a universal effect for entangled qubits

Abstract

Analysis of the recently proposed thought experiment with the path entangled photon pairs is extended here to spin entangled electron pairs. The detailed comparison of the two cases showed the range of distinctions and similarities in their monitoring. The general results contradict the Concurrency Rule stating that intimately linked characteristics of a simple system must change concurrently under changing conditions. Instead, the analysis showed that the systems coherence, while changing continuously with entanglement strength on the global scale, remains zero on the local level. This effect, common for bi photons and bi fermions, can be named total mutual intolerance between local and global coherence. We can thus predict mutual intolerance as a general effect for all pairs of entangled qubits regardless of their physical nature. Key words: Bi photon, bi fermion, entanglement, correlations, coherence transfer