For the first time astronomers have captured highly detailed pictures of a dwarf galaxy consuming an even smaller companion—one so diminutive that at first it looked like nothing more than a smudge.
"It wasn't clear what it was" originally, study co-author Aaron Romanowsky, an astronomer at the University of California, Santa Cruz, said of the mini galaxy.
The small blob of stars was first spied in digitized photographic plates from theDigitized Sky Survey project.
The tiny galaxy went unconfirmed for five years because it's so very faint. The nearby dwarf galaxy NGC 4449, in the constellation Canes Venatici, is about 50 times brighter.
Recently, though, Romanowsky and colleagues decided to follow up by capturing more detailed images of the dwarf galaxy and its neighboring smudge.
An international team—including study leader David Martinez-Delgado of theMax Planck Institute for Astronomy in Heidelberg, Germany, and co-author Jay Gabany, an amateur astronomer—collected data from the Blackbird Observatory in New Mexico and the Subaru Telescope in Hawaii.
"We got this fantastic image where we could actually see the individual stars of the galaxy" that's being swallowed by the larger one, Romanowsky said.
Galaxies Feed "Like Russian Dolls"
Astronomers could tell that one galaxy was "eating" the other because of a so-called stellar stream around NGC 4449.
The pictures clearly showed a halo of scattered stars around the larger galaxy, which is being created as its smaller counterpart gets shredded by the merger.
The discovery confirms some aspects of galaxy-formation theory, which says that galaxies of all sizes should consume each other.
"Large galaxies should eat smaller galaxies, and smaller galaxies should eat [even] smaller galaxies—like Russian dolls," Romanowsky said.
The finding also could explain why NGC 4449 is currently an active star-forming region: The smaller galaxy is orbiting the larger one in an elliptical orbit, much like how a comet orbits a star, Romanowsky said.
Although the companion galaxy appears exceptionally small to our eyes, when dark matter enters the picture, the two galaxies are actually much closer in mass, with the fainter dwarf maybe a fifth the mass of the brighter one.
"When that thing makes a close pass, it's going to push gravitationally on [the larger galaxy] and get it all riled up," he said.
Such a push about 500 million years ago could have been what started the intense star birth we see today.