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Noncommutative Geometry and the Physics of the LHC Era

In: Quantum Mathematical Physics

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  • Christoph A. Stephan

    (Universität Potsdam, Institut für Mathematik)

Abstract

Noncommutative geometry allows to unify the basic building blocks of particle physics, Yang-Mills-Higgs theory and general relativity, into a single geometrical framework. The resulting effective theory constrains the couplings of the standard model and reduces the number of degrees of freedom. After an introduction of the basic ideas of Noncommutative geometry, I will present its predictions for the standard model and the few known models beyond the standard model based on a classification scheme for finite spectral triples. Most of these models, including the Standard Model, are now ruled out by LHC data. But interesting extensions of the standard model which agree with the presumed Higgs mass, predict new particles (Fermions, Scalars and Bosons) and await further experimental data.

Suggested Citation

  • Christoph A. Stephan, 2016. "Noncommutative Geometry and the Physics of the LHC Era," Springer Books, in: Felix Finster & Johannes Kleiner & Christian Röken & Jürgen Tolksdorf (ed.), Quantum Mathematical Physics, edition 1, pages 471-495, Springer.
    • Handle: RePEc:spr:sprchp:978-3-319-26902-3_20
    DOI: 10.1007/978-3-319-26902-3_20
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