On the angular momentum and free energy of rotating gluon plasma
Abstract
We study the free energy and the angular momentum of rotating hot gluon matter using first-principle numerical simulations of the SU(3) lattice Yang-Mills theory. We calculate the specific moment of inertia and the specific deformation of the gluon matter as, respectively, the leading and next-to-leading terms in a series in angular velocity over a broad range of temperatures and various spatial boundary conditions. We show that the specific deformation, similarly to the moment of inertia, takes negative values in a phenomenologically interesting region of temperatures above the phase transition and turns positive at higher temperatures.
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