Amateur stargazer helps university astronomers unlock the secrets of dwarf galaxy cannibalism

Mr GaBany used his observational skills and his own relatively-modest 0.5m telescope in California’s Sierra Nevada mountains to obtain a stunning image of one such merger happening in what astronomically-speaking is Earth’s own back yard.

His multi-colour image of the nearby dwarf galaxy NGC 4449 shows that it is in the process of gobbling up an even smaller companion. The faint smudge of the half-eaten companion was first noted in 2007 by Russian astronomers studying photographic plates, but it has taken GaBany’s painstaking 30 hours of observations to produce the first detailed image of the system.

This information then inspired the professional team, led by David Martínez-Delgado from Heidelberg, to look still deeper. By imaging the system with the 8.2-meter Subaru Telescope in Hawaii, researchers from the University of California Santa Cruz (UCSC) were even able to resolve the companion into its individual constituent stars, in order to understand what type of galaxy is being consumed.

Amateur talent

Professor Michael Merrifield of The University of Nottingham’s School of Physics and Astronomy said: “This kind of dwarf cannibalism is happening all over the Universe and is a key first stage in building the big beautiful galaxies that we see around us. But because these dwarf systems are so faint, this step is extremely hard to spot, and we are lucky to witness such an event so nearby. By combining the talents of amateur astronomers with the knowledge and skills of the professionals, we are able to study this important phenomenon in detail for the first time.”

The new observations support the idea that the stellar halos around many dwarf galaxies are the remnants of smaller satellites that were shredded in past merger events. The ongoing merger in NGC 4449 may also be responsible for the intense burst of star formation seen in the galaxy. Aaron Romanowsky of the University of California Santa Cruz added:

“This galaxy is famous for its starburst activity, and it seems we’ve found the reason for that. The gravitational interaction with the incoming galaxy has probably disturbed the gas in the main galaxy and caused it to start forming stars.”

The results of this study have been accepted for publication in Astrophysical Journal Letters. In addition to Jay GaBany, the team comprises: David Martínez-Delgado, Hans-Walter Rix and Andrea Macciò of the Max Planck Institute for Astronomy in Heidelberg; Aaron Romanowsky, Jacob Arnold and Jean Brodie at UC Santa Cruz; Francesca Annibali at the Astronomical Observatory of Bologna; Jürgen Fliri at the Observatory of Paris; Stefano Zibetti at the University of Copenhagen; Roeland van der Marel and Alessandra Aloisi at the Space Telescope Science Institute; Taylor Chonis at the University of Texas, Austin; Julio Carballo-Bello at the Canary Islands Astrophysics Institute; J.
Gallego-Laborda at Fosca Nit Observatory in Spain; and Michael Merrifield of The University of Nottingham, England.

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