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Pattern-recognition techniques to search for gravitational waves from inspiraling, dark-dressed primordial black holes

Primordial black holes (PBHs) are compelling dark matter (DM) candidates, but current constraints suggest they cannot compose all of DM. This implies that additional DM components could coexist with PBHs, one of which could form "dark dresses" (DDs) around PBHs. DDs would cause PBH binaries to experience dynamical friction (DF), which would accelerate their inspirals with respect to those in vacuum. Ignoring DF effects in matched-filtering searches could lead to significant sensitivity loss, especially in systems with asymmetric mass-ratios of q ~ 10^{-3}. We thus show that a method designed to find time-frequency power-law tracks from inspiraling PBHs in vacuum could actually handle the presence of DDs with minimal modifications. This method, the generalized frequency-Hough (GFH), maps points in the detector's time-frequency plane to lines in the source parameter space. We show that this pattern-recognition technique can recover simulated DD signals in Gaussian noise, marking an important step forward in developing DM-aware methods beyond matched filtering.

preprint2025arXivOpen access
Charchit Kumar SethiAndrew L. MillerSarah Caudill
astro-ph.IMgr-qc
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Charchit Kumar SethiAndrew L. MillerSarah Caudill

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