Scalar-Mediated Inelastic Dark Matter as a Solution to Small-Scale Structure Anomalies
Abstract
We propose a scalar-mediated Self-Interacting Dark Matter (SIDM) model to address small-scale structure anomalies such as the core-cusp and diversity problems. The model is composed by a leptophilic scalar mediator and a pseudo-Dirac dark matter candidate with a mass splitting of 100ev.We imposed a dark discrete Z2 symmetry forbids tree-level elastic scattering. Therefore creates kinematic threshold that suppresses scattering in ultra-faint satellite galaxies while enabling large self-interaction cross-sections in dwarf galaxies via resonant enhancement. To satisfy Big Bang Nucleosynthesis (BBN) requirements, we introduce a dimension-5 magnetic dipole operator that enable the decay of the excited state (2 → 1 γ). This operator also provides a unique, low-threshold signal for direct detection experiments, characterized by a distinct 1/ER recoil spectrum. We identify a benchmark parameter space around (m ≈ 40 GeV, mφ ≈ 20 MeV) where non-perturbative coupled-channel dynamics successfully reconcile astrophysical observations with cosmological bounds, including CMB constraints on annihilation.
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