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Noncommutativity and physics: a non-technical review

Ali H. Chamseddine, Alain Connes, Walter D. van Suijlekom

2023The European Physical Journal Special Topics10 citationsDOIOpen Access PDF

Abstract

Abstract We give an overview of the applications of noncommutative geometry to physics. Our focus is entirely on the conceptual ideas, rather than on the underlying technicalities. Starting historically from the Heisenberg relations, we will explain how in general noncommutativity yields a canonical time evolution, while at the same time allowing for the coexistence of discrete and continuous variables. The spectral approach to geometry is then explained to encompass two natural ingredients: the line element and the algebra. The relation between these two is dictated by so-called higher Heisenberg relations, from which both spin geometry and non-abelian gauge theory emerges. Our exposition indicates some of the applications in physics, including Pati–Salam unification beyond the Standard Model, the criticality of dimension 4, second quantization and entropy.

Topics & Concepts

Noncommutative geometryUnificationTheoretical physicsPhysicsGauge theoryFocus (optics)Algebra over a fieldMathematicsQuantum mechanicsMathematical physicsPure mathematicsComputer scienceOpticsProgramming languageNoncommutative and Quantum Gravity TheoriesBlack Holes and Theoretical PhysicsAdvanced Operator Algebra Research
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