DRAG FORCE ANALYSIS OF EXTERNAL QUARK IN ROTATING AND STRONGLY INTERACTING QUARK GLUON PLASMA (QGP) USING STRING THEORY
Abstract
In this paper, it is analyzed drag force of a quark in a rotating and strongly coupled Quark Gluon Plasma
(QGP) by considering the motion of a string under background metric of rotating Banados-Teitelboim-Zanelli
(BTZ) black hole. The non-trivial solution of string motion under rotating BTZ black hole depends on a constant
momentum conjugate which is fixed physically in all space. The drag force is characterized by the black hole’s
parameters (curvature, mass and angular momentum) and angular velocity of the string. Moreover, it is also found
an external force term proportional to the angular momentum of the black hole in non-relativistic limit.
(QGP) by considering the motion of a string under background metric of rotating Banados-Teitelboim-Zanelli
(BTZ) black hole. The non-trivial solution of string motion under rotating BTZ black hole depends on a constant
momentum conjugate which is fixed physically in all space. The drag force is characterized by the black hole’s
parameters (curvature, mass and angular momentum) and angular velocity of the string. Moreover, it is also found
an external force term proportional to the angular momentum of the black hole in non-relativistic limit.
Keywords
Drag force, Quark Gluon Plasma, String theory, BTZ black hole
DOI: http://dx.doi.org/10.14203/widyariset.15.3.2012.651–656
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