Noncommutative Geometry and the Physics of the LHC Era
From MaRDI portal
Publication:2800046
DOI10.1007/978-3-319-26902-3_20zbMath1336.81121arXiv1305.3066OpenAlexW2489750210MaRDI QIDQ2800046
Publication date: 14 April 2016
Published in: Quantum Mathematical Physics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1305.3066
Unified quantum theories (81V22) Yang-Mills and other gauge theories in quantum field theory (81T13) Quantum field theory on curved space or space-time backgrounds (81T20) Symmetry breaking in quantum theory (81R40) Noncommutative geometry methods in quantum field theory (81T75)
Cites Work
- Unnamed Item
- Spectral action for scalar perturbations of Dirac operators
- On gravity, torsion and the spectral action principle
- Finding the standard model of particle physics a combinatorial problem
- Locally covariant chiral fermions and anomalies
- A noncommutative view on topology and order
- Classification of finite spectral triples
- The spectral action principle
- Resilience of the spectral standard model
- Noncommutative geometry and particle physics
- On the square of first order differential operators of Dirac type and the Einstein-Hilbert action
- Why the standard model
- Gravity and the standard model with neutrino mixing
- On noncommutative and pseudo-Riemannian geometry
- Dark matter with invisible light from heavy double charged leptons of almost-commutative geometry?
- Lorentzian version of the noncommutative geometry of the standard model of particle physics
- A UNITARY INVARIANT IN RIEMANNIAN GEOMETRY
- The Einstein–Hilbert–Yang–Mills–Higgs action and the Dirac–Yukawa operator
- Discrete spectral triples and their symmetries
- A farewell to unimodularity
This page was built for publication: Noncommutative Geometry and the Physics of the LHC Era
