Non-Abelian Fluid Dynamics in Lagrangian Formulation
Abstract
Non-Abelian extensions of fluid dynamics, which can have applications to the quark-gluon plasma, are given. These theories are presented in a symplectic/Lagrangian formulation and involve a fluid generalization of the Kirillov-Kostant form well known in Lie group theory. In our simplest model the fluid flows with velocity v and in presence of non-Abelian chromoelectric/magnetic Ea / Ba fields, the fluid feels a Lorentz force of the form Qa Ea + (v / c) × Qa Ba, where Qa is a space-time local non-Abelian charge satisfying a fluid Wong equation [ (Dt + v · D) Q ]a = 0 with gauge covariant derivatives.
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