中文

Transient axion streams from disrupted miniclusters

星系天体物理 2026-05-28 v1 宇宙学与河外天体物理 广义相对论与量子宇宙学 高能物理 - 唯象学

摘要

We investigate the formation and evolution of axion streams generated by the tidal disruption of axion miniclusters through stellar encounters in the Milky Way halo. Combining a large-scale Monte Carlo treatment of repeated stellar flybys with a tracer reconstruction of the stripped debris, we follow the phase-space evolution of the streams across a broad range of galactocentric radii and assess their contribution to the local dark matter distribution. We find that the kinetic energy of the stripped debris typically exceeds its residual self-gravitational binding energy at formation, so that the subsequent evolution is dominated by anisotropic free expansion and orbital shear. As a result, stream densities can decrease by factors as large as 109\sim10^{-9} over Galactic timescales, strongly suppressing the steady-state abundance of dense streams near the Solar circle. At the Solar radius, only a small fraction of realizations yields a nonzero encounter probability over a 10 year exposure, implying that observable streams are dominated by rare recent and nearby disruption events rather than by a persistent population of long-lived overdense substructure. Despite this rapid dilution, the streams remain dynamically cold and produce detector-frame linewidths many orders of magnitude narrower than the cavity bandwidths of current haloscope experiments. For representative haloscope configurations, we find characteristic stream linewidths in the range Δνstream107101Hz\Delta\nu_{\rm stream}\sim10^{-7}-10^{1}\,{\rm Hz}, while the corresponding Doppler drift remains well below the cavity response width.

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引用

@article{arxiv.2605.28005,
  title  = {Transient axion streams from disrupted miniclusters},
  author = {Luca Visinelli and Momchil Naydenov},
  journal= {arXiv preprint arXiv:2605.28005},
  year   = {2026}
}

备注

11 pages, 10 figures