Texas Astronomers Measure Most Massive, Most Unusual Black Hole Using Hobby-Eberly Telescope
28 November 2012
Fort Davis, Texas — Astronomers have used the Hobby-Eberly Telescope at The University of Texas at Austin's McDonald Observatory to measure the mass of what may be the most massive black hole yet — 17 billion Suns — in galaxy NGC 1277. The unusual black hole makes up 14 percent of its galaxy's mass, rather than the usual 0.1 percent. This galaxy and several more in the same study could change theories of how black holes and galaxies form and evolve. The work will appear in the journal Nature on Nov. 29.
NGC 1277 lies 220 million light-years away in the constellation Perseus. The galaxy is only ten percent the size and mass of our own Milky Way. Despite NGC 1277's diminutive size, the black hole at its heart is more than 11 times as wide as Neptune's orbit around the Sun.
"This is a really oddball galaxy," said team member Karl Gebhardt of The University of Texas at Austin. "It's almost all black hole. This could be the first object in a new class of galaxy-black hole systems." Furthermore, the most massive black holes have been seen in giant blobby galaxies called "ellipticals," but this one is seen in a relatively small lens-shaped galaxy (in astronomical jargon, a "lenticular galaxy").
The find comes out of the Hobby-Eberly Telescope Massive Galaxy Survey (MGS). The study's endgame is to better understand how black holes and galaxies form and grow together, a process that isn't well understood.
"At the moment there are three completely different mechanisms that all claim to explain the link between black hole mass and host galaxies' properties. We do not understand yet which of these theories is best," said Nature lead author Remco van den Bosch, who began this work while holding the W.J. McDonald postdoctoral fellowship at The University of Texas at Austin. He is now at the Max Planck Institute for Astronomy in Heidelberg, Germany.
The problem is lack of data. Astronomers know the mass of fewer than 100 black holes in galaxies. But measuring black hole masses is difficult and time-consuming. So the team developed the HET Massive Galaxy Survey to winnow down the number of galaxies that would be interesting to follow up on.
"When trying to understand anything, you always look at the extremes: the most massive and the least massive," Gebhardt said. "We chose a very large sample of the most massive galaxies in the nearby universe," to learn more about the relationship between black holes and their host galaxies.
Though still ongoing, the team has studied 700 of their 800 galaxies with HET. "This study is only possible with HET," Gebhardt said. "The telescope works best when the galaxies are spread all across the sky. This is exactly what HET was designed for."
In the current paper, the team zeroes in on the top six most massive galaxies. They found that one of those, NGC 1277, had already been photographed by Hubble Space Telescope. This provided measurements of the galaxy’s brightness at different distances from its center. When combined with HET data and various models run via supercomputer, the result was a mass for the black hole of 17 billion Suns (give or take 3 billion).
"The mass of this black hole is much higher than expected," Gebhardt said, "it leads us to think that very massive galaxies have a different physical process in how their black holes grow."
Founded in 1932, The University of Texas at Austin's McDonald Observatory hosts a multiple telescopes undertaking a variety of astronomical research under the darkest night skies of any professional observatory in the continental United States. McDonald is home to one of the world's largest telescopes, the 9.2-meter Hobby-Eberly Telescope, a joint project of The University of Texas at Austin, Pennsylvania State University, Ludwig Maximilians Universität München, and Georg-August-Universität Göttingen. An international leader in astronomy education and outreach, McDonald Observatory is also pioneering the next generation of astronomical research as a partner in the Giant Magellan Telescope.
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Dr. Karl Gebhardt
Herman and Joan Suit Professor of Astrophysics
The University of Texas at Austin