Quantum Theory of Noncommutative Fields
J.M. Carmona, J.L. Cortes, J. Gamboa, F. Mendez
TL;DR
This paper introduces a novel quantum field theory framework using noncommutative fields, which breaks particle-antiparticle degeneracy and naturally incorporates ultraviolet and infrared cutoffs, with phenomenological bounds discussed.
Contribution
It extends quantum field theory by defining noncommutative fields, allowing for new physical effects and energy scale bounds not present in traditional models.
Findings
Breaks particle-antiparticle degeneracy at dispersion level
Introduces natural ultraviolet and infrared cutoffs
Provides phenomenological bounds for new energy scales
Abstract
Generalizing the noncommutative harmonic oscillator construction, we propose a new extension of quantum field theory based on the concept of "noncommutative fields". Our description permits to break the usual particle-antiparticle degeneracy at the dispersion relation level and introduces naturally an ultraviolet and an infrared cutoff. Phenomenological bounds for these new energy scales are given.
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