On the stability of holographic confinement with magnetic fluxes
| Autor: | Fatemiabhari, Ali, Nunez, Carlos, Piai, Maurizio, Rucinski, James |
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| Rok vydání: | 2024 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| Popis: | We analyze the stability properties of a very simple holographic model for a confining field theory. The gravity dual consists of an Abelian gauge field, with non-trivial magnetic flux, coupled to six-dimensional gravity with a negative cosmological constant. We construct a one-parameter family of regular solitonic solutions, where the gauge field carries flux along a compact circle that smoothly shrinks at a finite value of the holographic direction, introducing a confinement scale in the dual effective four-dimensional field theory. The free energy of these solitonic backgrounds is compared to that of domain-wall solutions representing a five-dimensional conformal field theory. This reveals a zero-temperature first-order phase transition in the dual field theory, separating confining and conformal phases. We compute the spectrum of bound states by analysing field fluctuations in the gravity background, after dimensional reduction on the circle. The lightest states are a scalar and a vector particle. A tachyonic instability emerges near a turning point in the free energy, where its concavity changes. The phase transition prevents the realisation of this instability. Within the stable portion of parameter space, all bound states, including the lightest scalar, have masses comparable to other dynamical scales. Near the phase transition and beyond, in metastable and unstable regions, we find deviations in the mass of the lightest scalar, suggesting it couples to the trace of the stress-energy tensor in the field theory, consistently with its interpretation as an approximate dilaton. Comment: 20 pages, 4 figures |
| Databáze: | arXiv |
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