Synthetic magnetic fields induce Fraunhofer-like patterns in the critical current of atomic Josephson junctions via spatial interference and Josephson vortices, distinct from charged superconducting cases due to atomic neutrality.
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A superfluid Reynolds number defined from the Mach-1 contour of the irrotational flow organizes wake dynamics for penetrable obstacles, with shedding transition at Re_s ~2 and collapse of Strouhal number and drag coefficient.
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Fraunhofer Patterns in Atomic Josephson Junctions
Synthetic magnetic fields induce Fraunhofer-like patterns in the critical current of atomic Josephson junctions via spatial interference and Josephson vortices, distinct from charged superconducting cases due to atomic neutrality.
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Dynamic similarity of vortex shedding in a superfluid flowing past a penetrable obstacle
A superfluid Reynolds number defined from the Mach-1 contour of the irrotational flow organizes wake dynamics for penetrable obstacles, with shedding transition at Re_s ~2 and collapse of Strouhal number and drag coefficient.