arXiv:2103.00818 Abstract | arXiv Analytics

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Superfluid stars and Q-balls in curved spacetime

Published 2021-03-01Version 1

Within the framework of the theory of strongly-interacting quantum Bose liquids, we consider a general relativistic model of self-interacting complex scalar fields with logarithmic nonlinearity taken from dense superfluid models. We demonstrate the existence of gravitational equilibria in this model, described by spherically symmetric nonsingular finite-mass asymptotically-flat solutions. These equilibrium configurations can describe both massive astronomical objects, such as bosonized superfluid stars or cores of neutron stars, and finite-size particles and non-topological solitons, such as Q-balls. We give an estimate for masses and sizes of such objects.

Comments: 5 pages, 7 figures

Journal: Low Temp. Phys. 47, 89 (2021)

DOI: 10.1063/10.0003166

Categories: astro-ph.HE, gr-qc, hep-ph

Keywords: superfluid stars, curved spacetime, symmetric nonsingular finite-mass asymptotically-flat solutions, spherically symmetric nonsingular finite-mass asymptotically-flat, self-interacting complex scalar fields

Tags: journal article

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Superfluid stars and Q-balls in curved spacetime

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arXiv:2103.00818 [astro-ph.HE]Abstract References Reviews Resources