Saturation of uncertainty relations for twisted acceleration-enlarged   Newton-Hooke space-times

Marcin Daszkiewicz

arXiv:1109.1428·math-ph·November 30, 2012

Saturation of uncertainty relations for twisted acceleration-enlarged Newton-Hooke space-times

Marcin Daszkiewicz

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TL;DR

This paper constructs quantum states that saturate uncertainty relations within a specific twist-deformed spacetime model, advancing understanding of quantum uncertainties in noncommutative geometries.

Contribution

It introduces a method to explicitly construct states saturating uncertainty relations in twist-deformed acceleration-enlarged Newton-Hooke space-times.

Findings

01

States saturating uncertainty relations are explicitly constructed.

02

The approach advances the study of quantum uncertainties in noncommutative spacetime models.

03

Provides a framework for analyzing quantum states in deformed Newton-Hooke space-times.

Abstract

Using Fock representation we construct states saturating uncertainty relations for twist-deformed acceleration-enlarged Newton-Hooke space-times.

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Taxonomy

TopicsNoncommutative and Quantum Gravity Theories · Quantum Mechanics and Applications · Quantum Mechanics and Non-Hermitian Physics