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Abstract
Geometric Quantum Mechanics is a formulation that demonstrates how quantum theory may be casted in the language of Hamiltonian phase-space dynamics. In this framework, the states are referring to points in complex projective Hilbert space, the observables are real valued functions on the space and the Hamiltonian flow is defined by Schr{\"o}dinger equation. Recently, the effort to cast uncertainty principle in terms of geometrical language appeared to become the subject of intense study in geometric quantum mechanics. One has shown that the stronger version of uncertainty relation i.e. the Robertson-Schr{\"o}dinger uncertainty relation can be expressed in terms of the symplectic form and Riemannian metric. In this paper, we investigate the dynamical behavior of the uncertainty relation for spin $\frac{1}{2}$ system based on this formulation. We show that the Robertson-Schr{\"o}dinger uncertainty principle is not invariant under Hamiltonian flow. This is due to the fact that during evolution process, unlike symplectic area, the Riemannian metric is not invariant under the flow.
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Additional Metadata
Item Type: | Article |
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Divisions: | Faculty of Science |
DOI Number: | https://doi.org/10.37418/amsj.10.9.13 |
Publisher: | Union of Researchers of Macedonia |
Keywords: | Geometric quantum mechanics; Hamiltonian phase-space dynamics; Complex projective hilbert space; Real valued functions |
Depositing User: | Ms. Che Wa Zakaria |
Date Deposited: | 12 Apr 2023 04:40 |
Last Modified: | 12 Apr 2023 04:40 |
Altmetrics: | http://www.altmetric.com/details.php?domain=psasir.upm.edu.my&doi=10.37418/amsj.10.9.13 |
URI: | http://psasir.upm.edu.my/id/eprint/95375 |
Statistic Details: | View Download Statistic |
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