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

   https://doi.org/10.3847/2041-8213/adddab  

   Li, Dayi_David; Liu, Qing; Eadie, Gwendolyn M; Abraham, Roberto G; Marleau, Francine R; Harris, William E; van_Dokkum, Pieter; Romanowsky, Aaron J; Danieli, Shany; Brown, Patrick E; et al (June 2025, The Astrophysical Journal Letters)

   Candidate Dark Galaxy-2 (CDG-2) is a potential dark galaxy consisting of four globular clusters (GCs) in the Perseus cluster, first identified in D. Li et al. through a sophisticated statistical method. The method searched for overdensities of GCs from a Hubble Space Telescope (HST) survey targeting Perseus. Using the same HST images and 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 L_V,gal = 6.2 ± 3.0 × 10^6 L_⊙ and a minimum GC luminosity of L_V,GC = 1.03 ± 0.2 × 10^6 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. 

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2. Evidence for a high-energy tail in the gamma-ray spectra of globular clusters

   https://doi.org/10.1093/mnras/stab2406  

   Song, Deheng; Macias, Oscar; Horiuchi, Shunsaku; Crocker, Roland M; Nataf, David M (September 2021, Monthly Notices of the Royal Astronomical Society)

   ABSTRACT Millisecond pulsars are very likely the main source of gamma-ray emission from globular clusters. However, the relative contributions of two separate emission processes – curvature radiation from millisecond pulsar magnetospheres versus inverse Compton emission from relativistic pairs launched into the globular cluster environment by millisecond pulsars – have long been unclear. To address this, we search for evidence of inverse Compton emission in 8-yr Fermi–LAT data from the directions of 157 Milky Way globular clusters. We find a mildly statistically significant (3.8σ) correlation between the measured globular cluster gamma-ray luminosities and their photon field energy densities. However, this may also be explained by a hidden correlation between the photon field densities and the stellar encounter rates of globular clusters. Analysed in toto, we demonstrate that the gamma-ray emission of globular clusters can be resolved spectrally into two components: (i) an exponentially cut-off power law and (ii) a pure power law. The latter component – which we uncover at a significance of 8.2σ – has a power index of 2.79 ± 0.25. It is most naturally interpreted as inverse Compton emission by cosmic-ray electrons and positrons injected by millisecond pulsars. We find the luminosity of this power-law component is comparable to, or slightly smaller than, the luminosity of the curved component, suggesting the fraction of millisecond pulsar spin-down luminosity into relativistic leptons is similar to the fraction of the spin-down luminosity into prompt magnetospheric radiation. 

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3. The Globular Cluster System of the Virgo Cluster Ultradiffuse Galaxy VCC 615

   https://doi.org/10.3847/1538-4357/ad99cd  

   Mihos, J Christopher; Durrell, Patrick R; Toloba, Elisa; Peng, Eric W; Lim, Sungsoon; Côté, Patrick; Guhathakurta, Puragra; Ferrarese, Laura (January 2025, The Astrophysical Journal)

   Abstract We use Hubble Space Telescope imaging to study the globular cluster system of the Virgo Cluster ultradiffuse galaxy (UDG) VCC 615. We select globular cluster candidates through a combination of size and color, while simultaneously rejecting contamination from background galaxies that would be unresolved in ground-based imaging. Our sample of globular cluster candidates is essentially complete down to a limiting magnitude of F814W = 24.0, ≈90% down the globular cluster luminosity function (GCLF). We estimate a total globular cluster population for VCC 615 of $N_{\mathrm{GC}}=25.1_{-5.4}^{+6.5}$, resulting in a specific frequency of $S_N=55.5_{-12.0}^{+14.5}$, quite high compared to normal galaxies of similar luminosity, but consistent with the large specific frequencies found in some other UDGs. The abundant cluster population suggests the galaxy is enshrouded by a massive dark halo, consistent with previous dynamical mass estimates using globular cluster kinematics. While the peak of the GCLF appears slightly brighter than expected (by ≈0.3–0.5 mag), this difference is comparable to the 0.3 mag uncertainty in the measurement, and we see no sign of an extremely luminous population of clusters similar to those detected in the UDGs NGC1054-DF2 and -DF4. However, we do find a relatively high fraction ( $32_{-4}^{+5}$%) of large clusters with half-light radiiR_h > 9 pc. The galaxy's offset nucleus appears photometrically distinct from the globular clusters, and is more akin to ultracompact dwarfs (UCDs) in Virgo. Over time, VCC615’s already diffuse stellar body may be further stripped by cluster tides, leaving the nucleus intact to form a new Virgo UCD. 

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4. Radio observations of the merging galaxy cluster system Abell 3391-Abell 3395

   https://doi.org/10.1051/0004-6361/202039533  

   Brüggen, M.; Reiprich, T. H.; Bulbul, E.; Koribalski, B. S.; Andernach, H.; Rudnick, L.; Hoang, D. N.; Wilber, A. G.; Duchesne, S. W.; Veronica, A.; et al (March 2021, Astronomy & Astrophysics)

   null (Ed.)

   The pre-merging system of galaxy clusters Abell 3391-Abell 3395 located at a mean redshift of 0.053 has been observed at 1 GHz in an ASKAP/EMU Early Science observation as well as in X-rays with eROSITA. The projected separation of the X-ray peaks of the two clusters is ~50′ or ~3.1 Mpc. Here we present an inventory of interesting radio sources in this field around this cluster merger. While the eROSITA observations provide clear indications of a bridge of thermal gas between the clusters, neither ASKAP nor MWA observations show any diffuse radio emission coinciding with the X-ray bridge. We derive an upper limit on the radio emissivity in the bridge region of 〈 J 〉 1 GHz < 1.2 × 10 −44 W Hz −1 m −3 . A non-detection of diffuse radio emission in the X-ray bridge between these two clusters has implications for particle-acceleration mechanisms in cosmological large-scale structure. We also report extended or otherwise noteworthy radio sources in the 30 deg 2 field around Abell 3391-Abell 3395. We identified 20 Giant Radio Galaxies, plus 7 candidates, with linear projected sizes greater than 1 Mpc. The sky density of field radio galaxies with largest linear sizes of >0.7 Mpc is ≈1.7 deg −2 , three times higher than previously reported. We find no evidence for a cosmological evolution of the population of Giant Radio Galaxies. Moreover, we find seven candidates for cluster radio relics and radio halos. 

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5. The Orbital Dynamics and Globular Cluster Population of the Virgo Cluster Ultradiffuse Galaxy VCC 615

   Mihos, Chris; Durrell, Patrick; Toloba, Elisa; Cote, Patrick; Ferrarese, Laura; Guhathakurta, Puragra; Lim, Sungsoon; Peng, Eric; Sales, Laura (January 2023, American Astronomical Society Meeting #241, id. 260.04. Bulletin of the American Astronomical Society, Vol. 55, No. 2 e-id 2023n2i260p04)

   We use deep Hubble Space Telescope imaging to study the evolutionary state of of the Virgo Cluster ultradiffuse galaxy (UDG) VCC 615. Using the tip of the red giant branch method, we pinpoint the galaxy's location with Virgo to be on the far side of the cluster, near the Virgo virial radius. When combined with the galaxy's measured line of sight velocity, we find the galaxy to be on an outbound orbit, having likely passed near the cluster core within the past billion years. Given the galaxy's largely undisturbed morphology, we argue that the galaxy has experienced no recent and sudden transformation into a UDG due to the cluster potential, but rather is a long-lived UDG whose relatively wide orbit and large dynamical mass protect it from stripping and destruction by Virgo cluster tides. Our Hubble imaging resolves individual globular clusters within VCC 615 down to a limiting half-light radius of 1 pc, allowing for a clean determination of the size distribution and luminosity function of the galaxy's globular cluster population. The total mass of the galaxy derived from the size of its globular cluster population is comparable to our previous work estimate from the mass from the globular cluster kinematics. Finally, we also derive the structural properties of the galaxy's nucleus and find them similar to the properties of ultracompact galaxies (UCDs) in the Virgo core, suggesting a dynamical link between UCDs and nucleated UDGs in cluster environments. 

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