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Anisotropic string tensions and inversely magnetic catalyzed deconfinement from a dynamical AdS/QCD model

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Abstract
We extend previous work on dynamical AdS/QCD models by introducing an extra ingredient under the form of a background magnetic field, this to gain insight into the influence such field can have on crucial QCD observables. Therefore, we construct a closed form analytic solution to an Einstein-Maxwell-dilaton system with a magnetic field. We specifically focus on the deconfinement transition, reporting inverse magnetic catalysis, and on the string tension, reporting a weaker/stronger confinement along/perpendicular to the magnetic field. The latter, being of importance to potential modelling of heavy quarkonia, is in qualitative agreement with lattice findings. (C) 2019 The Author(s). Published by Elsevier B.V.
Keywords
Nuclear and High Energy Physics, CHIRAL-SYMMETRY BREAKING, PHASE-TRANSITION, WILSON LOOPS, FIELD, CONFINEMENT, GAUGE, EVENT

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MLA
Bohra, Hardik, et al. “Anisotropic String Tensions and Inversely Magnetic Catalyzed Deconfinement from a Dynamical AdS/QCD Model.” PHYSICS LETTERS B, vol. 801, 2020.
APA
Bohra, H., Dudal, D., Hajilou, A., & Mahapatra, S. (2020). Anisotropic string tensions and inversely magnetic catalyzed deconfinement from a dynamical AdS/QCD model. PHYSICS LETTERS B, 801.
Chicago author-date
Bohra, Hardik, David Dudal, Ali Hajilou, and Subhash Mahapatra. 2020. “Anisotropic String Tensions and Inversely Magnetic Catalyzed Deconfinement from a Dynamical AdS/QCD Model.” PHYSICS LETTERS B 801.
Chicago author-date (all authors)
Bohra, Hardik, David Dudal, Ali Hajilou, and Subhash Mahapatra. 2020. “Anisotropic String Tensions and Inversely Magnetic Catalyzed Deconfinement from a Dynamical AdS/QCD Model.” PHYSICS LETTERS B 801.
Vancouver
1.
Bohra H, Dudal D, Hajilou A, Mahapatra S. Anisotropic string tensions and inversely magnetic catalyzed deconfinement from a dynamical AdS/QCD model. PHYSICS LETTERS B. 2020;801.
IEEE
[1]
H. Bohra, D. Dudal, A. Hajilou, and S. Mahapatra, “Anisotropic string tensions and inversely magnetic catalyzed deconfinement from a dynamical AdS/QCD model,” PHYSICS LETTERS B, vol. 801, 2020.
@article{8664096,
  abstract     = {{We extend previous work on dynamical AdS/QCD models by introducing an extra ingredient under the form of a background magnetic field, this to gain insight into the influence such field can have on crucial QCD observables. Therefore, we construct a closed form analytic solution to an Einstein-Maxwell-dilaton system with a magnetic field. We specifically focus on the deconfinement transition, reporting inverse magnetic catalysis, and on the string tension, reporting a weaker/stronger confinement along/perpendicular to the magnetic field. The latter, being of importance to potential modelling of heavy quarkonia, is in qualitative agreement with lattice findings. (C) 2019 The Author(s). Published by Elsevier B.V.}},
  articleno    = {{135184}},
  author       = {{Bohra, Hardik and Dudal, David and Hajilou, Ali and Mahapatra, Subhash}},
  issn         = {{0370-2693}},
  journal      = {{PHYSICS LETTERS B}},
  keywords     = {{Nuclear and High Energy Physics,CHIRAL-SYMMETRY BREAKING,PHASE-TRANSITION,WILSON LOOPS,FIELD,CONFINEMENT,GAUGE,EVENT}},
  language     = {{eng}},
  pages        = {{11}},
  title        = {{Anisotropic string tensions and inversely magnetic catalyzed deconfinement from a dynamical AdS/QCD model}},
  url          = {{http://dx.doi.org/10.1016/j.physletb.2019.135184}},
  volume       = {{801}},
  year         = {{2020}},
}

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