Emergent Inert Adjoint Scalar Field in SU(2) Yang-Mills Thermodynamics due to Coarse-Grained Topological Fluctuations | Zendy

U. Herbst | Zendy; Ralf Hofmann | Zendy

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Emergent Inert Adjoint Scalar Field in SU(2) Yang-Mills Thermodynamics due to Coarse-Grained Topological Fluctuations

Author(s) -

U. Herbst,

Ralf Hofmann

Publication year - 2012

Publication title -

isrn high energy physics

Language(s) - English

Resource type - Journals

eISSN - 2090-7427

pISSN - 2090-7419

DOI - 10.5402/2012/373121

Subject(s) - scalar field , physics , mean field theory , quasiparticle , scalar (mathematics) , field (mathematics) , perturbation theory (quantum mechanics) , thermal quantum field theory , mathematical physics , thermodynamics , quantum mechanics , mathematics , geometry , superconductivity , pure mathematics , quantum gravity , quantum

We compute the phase and the modulus of an energy- and pressure-free, composite, adjoint, and inert field in an SU(2) Yang-Mills theory at large temperatures. This field is physically relevant in describing part of the ground-state structure and the quasiparticle masses of excitations. The field possesses nontrivial 1-winding on the group manifold 3. Even at asymptotically high temperatures, where the theory reaches its Stefan-Boltzmann limit, the field , though strongly power suppressed, is conceptually relevant: its presence resolves the infrared problem of thermal perturbation theory.

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