One of the most distant galaxies ever studied is more massive and mature than expected, astronomers announced today. The finding suggests some galaxies grew up much more quickly than conventional wisdom held.
The galaxy, named HUDF-JD2, is seen as the universe was only about 800 million years old. The universe today is about 13.6 billion years old.
"This galaxy appears to have 'bulked up' amazingly quickly, within a few hundred million years after the Big Bang," said Bahram Mobasher of the European Space Agency and the Space Telescope Science Institute. "It made about eight times more mass in terms of stars than are found in our own Milky Way today, and then, just as suddenly, it stopped forming new stars. It appears to have grown old prematurely."
The galaxy was spotted in an infrared image made last year as part of the Hubble Space Telescope's Ultra Deep Field survey. Follow-up observations were done with NASA’s Spitzer Space Telescope and the European Southern Observatory's Very Large Telescope.
Spitzer records infrared light at wavelengths longer than what Hubble sees, making it better at spotting older, redder stars. These old stars in the galaxy are the clues to its overall maturity.
The leading theory of galaxy formation holds that small galaxies merged to gradually form larger ones. But the newfound galaxy is so massive at such an early epoch that astronomers now think that at least some galaxies formed more quickly in a monolithic manner.
Other recent observations have begun to reveal similar disparities between theory and reality.
"This would be quite a big galaxy even today," said study team member Mark Dickinson of the National Optical Astronomy Observatory. "At a time when the universe was only 800 million years old, it's positively gigantic."
The galaxy likely harbors a supermassive black hole at its center, the astronomers said. In recent years, black holes have been seen as a crucial element in the formation and evolution of galaxies, but theorists are still unsure of the exact details of how it all comes together.