Geometrical Description of Quantum Mechanics - Transformations and   Dynamics

G. Marmo; G. F. Volkert

arXiv:1006.0530·math-ph·November 21, 2014

Geometrical Description of Quantum Mechanics - Transformations and Dynamics

G. Marmo, G. F. Volkert

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TL;DR

This paper reviews a geometrical approach to quantum mechanics, enabling the use of classical mathematical tools to analyze quantum phenomena like entanglement and separability in composite systems.

Contribution

It introduces a geometrical formulation of quantum mechanics and applies it to study entanglement and separability in composite quantum systems.

Findings

01

Geometrical formulation facilitates classical methods in quantum analysis

02

Application to entanglement reveals new insights

03

Enhances understanding of quantum state separability

Abstract

In this paper we review a proposed geometrical formulation of quantum mechanics. We argue that this geometrization makes available mathematical methods from classical mechanics to the quantum frame work. We apply this formulation to the study of separability and entanglement for states of composite quantum systems.

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