Multi-Screen Entanglement in Tensorial Quantum Mechanics

TL;DR

This paper introduces a tensorial framework for multi-screen entanglement in quantum mechanics, offering a new formalization that overcomes limitations of standard approaches and enables consistent representation of entanglement across multiple detectors.

Contribution

It presents a novel tensorial formulation of quantum mechanics specifically designed for multi-screen entanglement, extending traditional matrix mechanics.

Findings

Provides a consistent mathematical model for multi-screen entanglement.

Overcomes limitations of Dirac-Von Neumann quantum mechanics.

Enables analysis of entanglement with multiple detectors.

Abstract

In this work we present an invariant-objective formalization of multi screen-entanglement grounded on Tensorial Quantum Mechanics (TQM) [12]. This new tensorial formulation of the theory of quanta -- basically, an extension of Heisenberg's matrix mechanics -- allows not only to escape the many problems present in the current account of multi-partite entanglement grounded on the Dirac-Von Neumann Standard formulation of Quantum Mechanics (SQM) but, more importantly, to consistently represent entanglement phenomena when considering a multiplicity of different screens and detectors.