Candidate Dark Galaxy-2: Validation and Analysis of an Almost Dark Galaxy in the Perseus Cluster

Abstract

Candidate Dark Galaxy-2 (CDG-2) is a potential dark galaxy consisting of four globular clusters (GCs) in the Perseus cluster, first identified in Li et al. (2025) through a sophisticated statistical method. The method searched for over-densities of GCs from a Hubble Space Telescope (HST) survey targeting Perseus. Using the same HST images and the new imaging data from the Euclid survey, we report the detection of extremely faint but significant diffuse emission around the four GCs of CDG-2. We thus have exceptionally strong evidence that CDG-2 is a galaxy. This is the first galaxy detected purely through its GC population. Under the conservative assumption that the four GCs make up the entire GC population, preliminary analysis shows that CDG-2 has a total luminosity of LV, gal= 6.23.0 × 106 L and a minimum GC luminosity of LV, GC= 1.030.2× 106 L. Our results indicate that CDG-2 is one of the faintest galaxies having associated GCs, while at least 16.6\% of its light is contained in its GC population. This ratio is likely to be much higher ( 33\%) if CDG-2 has a canonical GC luminosity function (GCLF). In addition, if the previously observed GC-to-halo mass relations apply to CDG-2, it would have a minimum dark matter halo mass fraction of 99.94\% to 99.98\%. If it has a canonical GCLF, then the dark matter halo mass fraction is 99.99\%. Therefore, CDG-2 may be the most GC dominated galaxy and potentially one of the most dark matter dominated galaxies ever discovered.