TL;DR
This paper explores how de Sitter symmetry influences quantum operators, offering new insights into quantum theory, with applications to the cosmological constant problem, gravity, and particle physics.
Contribution
It introduces a novel perspective on quantum theory based on de Sitter symmetry and applies it to key problems in cosmology and fundamental physics.
Findings
Operators satisfy de Sitter algebra commutation relations.
Provides a new approach to the cosmological constant problem.
Links de Sitter symmetry to gravity and particle theory.
Abstract
de Sitter symmetry on quantum level implies that operators describing a given system satisfy commutation relations of the de Sitter algebra. This approach gives a new perspective on fundamental notions of quantum theory. We discuss applications of the approach to the cosmological constant problem, gravity, and particle theory.
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Taxonomy
TopicsNoncommutative and Quantum Gravity Theories · Quantum Mechanics and Applications · Algebraic and Geometric Analysis