Probing Dark Matter Subhalos in Galaxy Clusters Using Highly Magnified Stars

Abstract

Luminous stars in background galaxies straddling the lensing caustic of a foreground galaxy cluster can be individually detected due to extreme magnification factors of 102--103, as recently observed in deep HST images. We propose a direct method to probe the presence of dark matter subhalos in galaxy clusters by measuring the astrometric perturbation they induce on the image positions of magnified stars or bright clumps: lensing by subhalos breaks the symmetry of a smooth critical curve, traced by the midpoints of close image pairs. For the giant arc at z = 0.725 behind the lensing cluster Abell 370 at z = 0.375, a promising target for detecting image pairs of stars, we find that subhalos of masses in the range 106--108\,M with the abundance predicted in the cold dark matter theory should typically imprint astrometric distortions at the level of 20--80\, mas. We estimate that 10\,hr integrations with JWST at 1--3\,μ m may uncover several magnified stars whose image doublets will reveal the subhalo-induced structures of the critical curve. This method can probe a dynamic range in the subhalo to cluster halo mass ratio m/M 10-7--10-9, thereby placing new constraints on the nature of dark matter.