Compact Q-balls and Q-shells within a CPN Skyrme-Faddeev type model

Abstract

While CPN models with analytic potentials are known to support finite-energy compact Q-ball and Q-shell solutions, their behavior in more complex Lagrangian frameworks remains a subject of active research. This work explores these non-topological structures within an extended Skyrme-Faddeev-type model that incorporates quartic derivative terms. In this context, harmonic time dependence and the presence of quartic terms constitute two independent stabilization mechanisms that allow the configurations to circumvent Derrick's scaling argument. We investigate the necessary conditions for the existence of these solutions and analyze the influence of quartic terms on the properties of the resulting compactons, specifically examining the E(Q) relationship between energy and Noether charge. Our findings provide valuable insights into the stability and characteristics of compact boson stars within CPN models featuring higher-order derivative terms.