Probing a minimal dark gauge sector via microlensing of compact dark objects
Abstract
We introduce a minimal Dark Standard Model (DSM) consisting of a single spin-0 particle with dark U(1) gauge symmetry, and completely decoupled from the visible sector. Characterized only by the scalar mass μ and the dark charge q, this framework naturally gives rise to a rich phenomenology, including stable solitonic configurations that behave as dark "mini-MACHOs". We numerically build and evolve these gauged scalar-field solitons, derive their mass-radius relations, and identify a critical charge beyond which no gravitationally bound configurations exist. By combining these results with microlensing surveys that exclude compact objects heavier than the asteroid-mass scale (M 10-11M), we obtain the constraint μ 10\, eV for viable configurations, depending on q. Our results represent a step forward in showing that purely gravitational observations can constrain the internal parameters of a dark gauge sector, and provide a framework for exploring broader DSM scenarios through future probes such as gravitational wave detections.
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