Near BPS skyrmions and restricted harmonic maps

Speight, J.M.

doi:10.1016/j.geomphys.2015.02.001

Cited by 25 publications

(48 citation statements)

References 26 publications

(74 reference statements)

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“…It is also known that some crystal structures usually emerge [53]. However, if we assume that the main contribution to the energy comes from the BPS part of the full model, i.e., the Dirichlet part is multiplied by a small parameter , we are still in a near BPS regime with only softly broken APD symmetries (for a recent investigation of this issue, see [54]). Hence, one may wonder whether, for sufficiently small , we would continue to have liquid (plastic) ferromagnetic matter, as found for the BPS limit.…”

Section: Jhep11(2014)095mentioning

confidence: 99%

Magnetothermodynamics of BPS baby skyrmions

Adam

Romańczukiewicz

Sánchez-Guillén

et al. 2014

J. High Energ. Phys.

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The magnetothermodynamics of skyrmion type matter described by the gauged BPS baby Skyrme model at zero temperature is investigated. We prove that the BPS property of the model is preserved also for boundary conditions corresponding to an asymptotically constant magnetic field. The BPS bound and the corresponding BPS equations saturating the bound are found. Further, we show that one may introduce pressure in the gauged model by a redefinition of the superpotential. Interestingly, this is related to non-extremal type solutions in the so-called fake supersymmetry method. Finally, we compute the equation of state of magnetized BSP baby skyrmions inserted into an external constant magnetic field H and under external pressure P , i.e., V = V (P, H), where V is the "volume" (area) occupied by the skyrmions. We show that the BPS baby skyrmions form a ferromagnetic medium.

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Section: Jhep11(2014)095mentioning

confidence: 99%

Magnetothermodynamics of BPS baby skyrmions

Adam

Romańczukiewicz

Sánchez-Guillén

et al. 2014

J. High Energ. Phys.

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“…We act with an infinitesimal scale transformation x i → ð1 þ λÞx i , for infinitesimal λ, on all fields that appear in the constrained energy functional (but not on the metric). Then we assume that all terms in the energy density are "geometrically natural" [14] such that a coordinate transformation acting on the fields may be traded for the inverse coordinate transformation of the metric, δ ij → ð1 − 2λÞδ ij . That is to say, we act with the transformation…”

Section: ð2:1þmentioning

confidence: 99%

Volume of a vortex and the Bradlow bound

2017

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We demonstrate that the geometric volume of a soliton coincides with the thermodynamical volume also for field theories with higher-dimensional vacuum manifolds (e.g., for gauged scalar field theories supporting vortices or monopoles), generalizing the recent results of Ref. [C. Adam, M. Haberichter, and A. Wereszczynski, Phys. Lett. B 754, 18 (2016).]. We apply this observation to understand Bradlowtype bounds for general Abelian gauge theories supporting vortices, as well as some thermodynamical aspects of said theories. In the case of SDiff Bogomolny-Prasad-Sommerfield (BPS) models (being examples of perfect fluid models) we show that the base-space independent geometric volume (area) of the vortex is exactly equal to the Bradlow volume (a minimal volume for which BPS soliton solutions exist). This volume can be finite for compactons or infinite for infinitely extended solitons (in flat Minkowski space-time).

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“…Classical binding energies are, therefore, zero, and small nonzero binding energies may be generated, either already for the BPS submodel, by including further energy contributions (spin and isospin excitations, Coulomb energy [18]), or by adding more terms to the lagrangian [19] - [21], leading to the general lagrangian (I.1).…”

Section: Arxiv:160704286v2 [Hep-th] 19 Sep 2016mentioning

confidence: 99%

Radial vibrations of BPS skyrmions

et al. 2016

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We study radial vibrations of spherically symmetric skyrmions in the BPS Skyrme model. Concretely, we numerically solve the linearised field equations for small fluctuations in a skyrmion background, both for linearly stable oscillations and for (unstable) resonances. This is complemented by numerical solutions of the full nonlinear system, which confirm all the results of the linear analysis. In all cases, the resulting fundamental excitation provides a rather accurate value for the Roper resonance, supporting the hypothesis that the BPS Skyrme model already gives a reasonable approximate description of this resonance. Further, for many potentials additional higher resonances appear, again in agreement with known experimental results.

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Near BPS skyrmions and restricted harmonic maps

Cited by 25 publications

References 26 publications

Magnetothermodynamics of BPS baby skyrmions

Magnetothermodynamics of BPS baby skyrmions

Volume of a vortex and the Bradlow bound

Radial vibrations of BPS skyrmions

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