Global baryonic vortices in rotating nuclear matter become energetically viable due to causality-enforced finite size, competing with local vortices under tunable rotation, size, and chemical potential.
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A parameterized family of virial identities decomposes global constraints into radially resolved components for O(n)-symmetric solitons, instantons, and bounces.
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Baryonic vortices in rotating nuclear matter
Global baryonic vortices in rotating nuclear matter become energetically viable due to causality-enforced finite size, competing with local vortices under tunable rotation, size, and chemical potential.
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Generalized Virial Identities: Radial Constraints for Solitons, Instantons, and Bounces
A parameterized family of virial identities decomposes global constraints into radially resolved components for O(n)-symmetric solitons, instantons, and bounces.