Frozen solitonic Hayward-boson stars in Anti-de Sitter Spacetime
Abstract
We construct solitonic Hayward-boson stars (SHBSs) in Anti-de Sitter (AdS) spacetime, which consists of the Einstein-Hayward model and a complex scalar field with a soliton potential. Our results reveal a critical magnetic charge qc. For q≥ qc in the limit of ω → 0, the matter field is primarily distributed within the critical radius rc, beyond which it decays rapidly, while the metric components -gtt and 1/grr become very small at rc. These solutions are termed ``frozen solitonic Hayward-boson stars" (FSHBSs). Continuously decreasing disrupts the frozen state. However, we did not find a frozen solution when q<qc. The value of qc depends both on the cosmological constant and the self-interaction coupling η. We also found that for high frequency solutions, increasing η can yield a pure Hayward solution. However, for low frequency solutions, increasing η reduces both 1/grr and -gtt. Furthermore, we analyzed the effective potential of SHBSs and identified an extra pair of light rings in the second solution branch.
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