Lattice simulations in Rindler spacetime show that acceleration turns the confinement-deconfinement transition in gluodynamics into a spatial crossover that approximately follows the Tolman-Ehrenfest law, while the critical temperature stays unchanged.
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Simulations of active six-state Potts models produce spiral, target, stripe, and disordered waves, with distinct forward/backward modes for even and odd states and first-order transitions between them.
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Spatial confinement-deconfinement transition in accelerated gluodynamics within lattice simulation
Lattice simulations in Rindler spacetime show that acceleration turns the confinement-deconfinement transition in gluodynamics into a spatial crossover that approximately follows the Tolman-Ehrenfest law, while the critical temperature stays unchanged.
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Spiral, target, stripe, and disordered waves in active six-state Potts models
Simulations of active six-state Potts models produce spiral, target, stripe, and disordered waves, with distinct forward/backward modes for even and odd states and first-order transitions between them.