Anisotropic heavy quark potential in strongly-coupled N=4 SYM theory in a magnetic field

R. Rougemont; R. Critelli; J. Noronha

doi:10.1103/PhysRevD.91.066001

Anisotropic heavy quark potential in strongly-coupled N=4 SYM theory in a magnetic field

R. Rougemont, R. Critelli, J. Noronha

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Abstract

In this work we use the gauge/gravity duality to study the anisotropy in the heavy quark potential in strongly coupled N=4 super-Yang Mills (SYM) theory (both at zero and nonzero temperature) induced by a constant and uniform magnetic field B. At zero temperature, the inclusion of the magnetic field decreases the attractive force between heavy quarks with respect to its B=0 value and the force associated with the parallel potential is the least attractive force. We find that the same occurs at nonzero temperature and, thus, at least in the case of strongly coupled N=4 SYM, the presence of a magnetic field generally weakens the interaction between heavy quarks in the plasma.

Original language	English (US)
Article number	066001
Journal	Physical Review D - Particles, Fields, Gravitation and Cosmology
Volume	91
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevD.91.066001
State	Published - Mar 2 2015
Externally published	Yes

ASJC Scopus subject areas

Nuclear and High Energy Physics
Physics and Astronomy (miscellaneous)

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10.1103/PhysRevD.91.066001

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abstract = "In this work we use the gauge/gravity duality to study the anisotropy in the heavy quark potential in strongly coupled N=4 super-Yang Mills (SYM) theory (both at zero and nonzero temperature) induced by a constant and uniform magnetic field B. At zero temperature, the inclusion of the magnetic field decreases the attractive force between heavy quarks with respect to its B=0 value and the force associated with the parallel potential is the least attractive force. We find that the same occurs at nonzero temperature and, thus, at least in the case of strongly coupled N=4 SYM, the presence of a magnetic field generally weakens the interaction between heavy quarks in the plasma.",

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AU - Noronha, J.

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AB - In this work we use the gauge/gravity duality to study the anisotropy in the heavy quark potential in strongly coupled N=4 super-Yang Mills (SYM) theory (both at zero and nonzero temperature) induced by a constant and uniform magnetic field B. At zero temperature, the inclusion of the magnetic field decreases the attractive force between heavy quarks with respect to its B=0 value and the force associated with the parallel potential is the least attractive force. We find that the same occurs at nonzero temperature and, thus, at least in the case of strongly coupled N=4 SYM, the presence of a magnetic field generally weakens the interaction between heavy quarks in the plasma.

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Anisotropic heavy quark potential in strongly-coupled N=4 SYM theory in a magnetic field

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