Can Spectral Action be a Window to Very High Energies?
Dmitri Vassilevich
TL;DR
This paper explores how the spectral action principle from noncommutative geometry can predict the behavior of bosonic theories at extremely high energies, potentially offering insights into fundamental physics.
Contribution
It provides an overview of universal predictions of the spectral action principle for high-energy behavior of bosonic theories within the noncommutative geometry framework.
Findings
Standard Model fits well into noncommutative geometry
Spectral action predicts bosonic behavior at high energies
Universal predictions for high-energy physics
Abstract
The principles of noncommutative geometry impose severe restrictions on the structure of (almost) commutative field theories. The Standard Model fits surprisingly well into the noncommutative framework. Here we overview some universal predictions of the spectral action principle for the behavior of bosonic theories at very high energies.
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