Q-balls in polynomial potentials
ORAL
Abstract
Bosons carrying a conserved charge can form stable bound states if their Lagrangian contains
attractive self-interactions. Bound-state configurations with a large charge Q can be described
classically and are denoted as Q-balls, their properties encoded in a non-linear differential equation.
Here, we study Q-balls in arbitrary polynomial single-scalar-field potentials both numerically and
via various analytical approximations. We highlight some surprising universal features of Q-balls
that barely depend on the details of the potential. The polynomial potentials studied here can be
realized in renormalizable models involving additional heavy or light scalars, as we illustrate with
several examples.
attractive self-interactions. Bound-state configurations with a large charge Q can be described
classically and are denoted as Q-balls, their properties encoded in a non-linear differential equation.
Here, we study Q-balls in arbitrary polynomial single-scalar-field potentials both numerically and
via various analytical approximations. We highlight some surprising universal features of Q-balls
that barely depend on the details of the potential. The polynomial potentials studied here can be
realized in renormalizable models involving additional heavy or light scalars, as we illustrate with
several examples.
–
Publication: We submitted our work in PRD and it was accepted for publication.
Presenters
-
Mikheil Sokhashvili
University of Virginia
Authors
-
Mikheil Sokhashvili
University of Virginia
-
Julian Heeck
University of Virginia