Galaxies that don’t shine: simulations predict a hidden population in the nearby universe

distribución de materia oscura del Grupo Local en una simulación numérica de formación y evolución de galaxias perteneciente al proyecto HESTIA
Advertised on

The Instituto de Astrofísica de Canarias (IAC) and the University of La Laguna are leading an international study on dark galaxies. ULL PhD student Guacimara García Bethencourt, together with her thesis supervisors Arianna Di Cintio and Sébastien Comerón, both lecturers in the Department of Astrophysics at the ULL and researchers at the IAC, presents a pioneering study in Astronomy & Astrophysics on one of the most intriguing objects in modern astrophysics: dark galaxies, systems rich in gas and dark matter but incapable of forming stars, and therefore invisible to traditional telescopes.

The study comes at a highly topical moment. In recent weeks, both NASA and the ESA have announced the discovery of the first observational candidates, including the Cloud-9 object, which has been confirmed by the Hubble Space Telescope. These detections have placed dark galaxies at the centre of the cosmological debate.

A region of space mostly filled with background galaxies, with one prominent star at upper left. A large blob of purple haze occupies much of the field. Within the purple region, an unremarkable area is outlined with a dashed white circle.
This image shows the location of Cloud-9, which is 14 million light-years from Earth. The diffuse magenta is radio data from the ground-based Very Large Array (VLA) showing the presence of the cloud. The dashed circle marks the peak of radio emission, which is where researchers focused their search for stars. Follow-up observations by the Hubble Space Telescope’s Advanced Camera for Surveys found no stars within the cloud. The few objects that appear within its boundaries are background galaxies. Before the Hubble observations, scientists could argue that Cloud-9 is a faint dwarf galaxy whose stars could not be seen with ground-based telescopes due to the lack of sensitivity. Hubble’s Advanced Camera for Surveys shows that, in reality, the failed galaxy contains no stars.Science: NASA, ESA, VLA, Gagandeep Anand (STScI), Alejandro Benitez-Llambay (University of Milano-Bicocca); Image Processing: Joseph DePasquale (STScI)

In this context, the new study is at the forefront of the field of galaxy formation and evolution, using state-of-the-art cosmological simulations (HESTIA and NIVARIA-LG) to unravel how these ‘ghost’ objects form and evolve.

‘The results show that these galaxies arise in dark matter halos with specific properties — less concentrated and with higher rotation — and that they inhabit isolated regions of the universe, where the lack of interactions hinders star formation,’ explains García Bethencourt.

Furthermore, the team provides key predictions for their detection: up to eight dark galaxies could be observable in the Milky Way’s immediate vicinity through the emission of neutral hydrogen, paving the way for their detection in future surveys.

This work not only reinforces one of the fundamental predictions of the Lambda-Cold Dark Matter (ΛCDM) cosmological model—the standard theoretical framework describing the origin, evolution and fate of the universe—but also offers a concrete guide to discovering a population of galaxies that, until now, has remained hidden.

‘The universe could be full of invisible galaxies… and we are closer than ever to finding them,’ concludes the researcher.

Article: Guacimara García-Bethencourt et al. "H i-bearing dark galaxies predictions from constrained Local Group simulations: how many and where to find them", Astronomy & Astrophysics, 2026. DOI: 10.1051/0004-6361/202558801

Contact at the IAC-ULL:
Guacimara García Bethencourt, ggarciab [at] ull.edu.es (ggarciab[at]ull[dot]edu[dot]es)
Arianna Di Cintio, adicintio [at] iac.es (adicintio[at]iac[dot]es)
Sébastien Comerón, sebastien.comeron [at] iac.es (sebastien[dot]comeron[at]iac[dot]es)

Related news
Grupo de investigación liderado por A. Di Cintio
Press release
Dwarf galaxies: key to understanding the limits of the Universe model
The smallest galaxies in the cosmos are emerging as one of the greatest challenges for modern astrophysics. A team of researchers from the Universidad de La Laguna and the Instituto de Astrofísica de Canarias (IAC) is studying these tiny systems to understand why they do not always match the predictions of the standard cosmological model. The work is carried out within the framework of the INGENIO project, funded by the Agencia Estatal de Investigación (AEI), which uses advanced cosmological simulations to reconstruct the galactic environment closest to the Milky Way and explore physical
Advertised on
News type
Press release
Scope
Science and Technology
Astrophysics
Communications media
The Milky Way and the Local Group (MWLG)
Formation & Evolution of Galaxies (FYEG)
Dark matter

It may interest you

  • mikepicture1
    Research news
    A new way to measure the distance to NGC1052-DF2
    O ne of the key challenges in astronomy is to measure accurate distances to celestial objects. Knowing distances is crucial since it allows us to measure physical properties such as size, mass and luminosity. Since we can’t go out and use a tape-measure, a range of different approaches have been developed. Many of these approaches rely on using “standard candles”. Standard candles are objects (for example stars or supernovae) for which we know their intrinsic ”true” brightness. Once we know this, then their observed brightness compared to their intrinsic brightness gives us a distance to the
    Advertised on
  • Participants in the practical training of the EDUCADO project in the control room of the William Herschel Telescope (WHT) at the Roque de los Muchachos Observatory (La Palma).
    Press release
    Two nights under the stars: EDUCADO Project runs intensive observation school
    The EU-funded EDUCADO project (Exploring the Deep Universe by Computational Analysis of Data from Observations) at the Instituto de Astrofísica de Canarias (IAC) is organising a two-night astronomical observation school providing hands-on research training for early-stage researchers in astronomy and computer science. The program will convene 15 doctoral candidates from across Europe for an immersive, interdisciplinary learning experience. Attendees will engage in night time astronomical observations utilizing state-of-the-art telescopic instrumentation, guided data analysis workshops, and
    Advertised on
  • Artistic representation of the Cosmic Brain project, which adapts cosmological analysis techniques to neuroimaging
    Press release
    From studying the universe to neuroimaging: a cosmology technique allows us to “listen” to the structure of the human brain
    A multidisciplinary team of astrophysicists, neuroscientists, engineers, and musicians has unveiled a pioneering method to “listen” to the structure of the human brain. Published in Nature Scientific Reports , the study presents the first higher-order sonification applied to structural magnetic resonance imaging (MRI) data. This technique involves transforming three-dimensional information about the brain into sound, taking into account the spatial relationships and complex structure of the data. To do this, mathematical tools originally developed to study the large-scale structure of the
    Advertised on