Earliest spiral galaxy surprises astronomers

The discovery of a grand design spiral galaxy in the early universe could hold clues to how spirals start to take shape.

By W. M. Keck Observatory, Kamuela, Hawaii — Published: July 18, 2012

HST/Keck false color composite image of galaxy BX442. Credit: David Law, Dunlap Institute for Astronomy & Astrophysics

In the beginning, galaxies were hot and clumpy — too hot to settle down and form grand spirals like the Milky Way and other galaxies seen in the nearby universe today. But astronomers have now been surprised by the discovery of a solitary grand design spiral galaxy in the early universe that could hold clues to how spirals start to take shape.

The ancient spiral, called BX442, was found by astronomers who first surveyed 300 distant galaxies using the Hubble Space Telescope, then followed up and confirmed using detailed observations and analyses from the W. M. Keck Observatory in Hawaii.

“As you go back in time to the early universe — about 3 billion years after the Big Bang, the light from this galaxy has been travelling to us for about 10.7 billion years — galaxies look really strange, clumpy, and irregular, not symmetric,” said astronomer Alice Shapley from the University of California, Los Angeles (UCLA). “The vast majority of old galaxies look like train wrecks. Our first thought was why is this one so different, and so beautiful?”

Not only was the spiral shape clearly visible, but also by using Keck’s OH-Suppressing Infrared Imaging Spectrograph (OSIRIS) instrument, astronomers were able to study different parts of BX442 and determine that it is, in fact, rotating and not just two unrelated disk galaxies along the same line of sight that give the appearance of being a single spiral galaxy.

“We first thought this could just be an illusion and that perhaps we were being led astray by the picture,” said Shapley. “What we found when we took spectra of this galaxy is that the spiral arms do belong to this galaxy; it wasn’t an illusion. Not only does it look like a rotating spiral disk galaxy — it really is. We were blown away.”

Using laser adaptive optics (AO) to cancel out much of Earth’s atmospheric distortions, the Keck II Telescope is able to get equal or better resolution than the Hubble Space Telescope. This was critical in this case, said astronomer David Law from the University of Toronto.

“Galaxies at this distance appear super, super faint and super, super tiny,” said Law. “We needed every inch of Keck’s light collecting area, exquisite image quality from the AO system, and a sensitive instrument to not only detect the galaxy but chop up its light into 3,600 pieces to analyze. OSIRIS is really one of the only instruments in the world that could do what we needed, and everything came together beautifully.”

In the end, it took 13 hours over three nights with the Keck II Telescope to gather the spectra from BX422 needed to confirm the nature of the distant and early spiral. “We got a beautiful map that told us this thing is a rotating disk,” said Shapley.

What also sets BX442 apart from other galaxies of its epoch is that it appears to be in the process of merging with another galaxy. That, in fact, could be the reason it is beginning to form a spiral.

“Indeed, many of the most well-known grand design spiral galaxies in the nearby universe (e.g., M51, M81, M101) are observed to have nearby companions, and small satellites such as the Sagittarius dwarf galaxy may even be partly responsible for producing spiral patterns in our own Milky Way Galaxy,” the researchers wrote.

They tested the idea with a simulation and found that the spiral pattern could be formed by such a merger. The simulations indicate that its glory may be fleeting though; the spiral may dissipate again in just 100 million years.

“BX442 represents a link between early galaxies that are much more turbulent than the rotating spiral galaxies that we see around us,” Shapley said. “Indeed, this galaxy may highlight the importance of merger interactions at any cosmic epoch in creating grand design spiral structure.”

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DAVID DIEDERICH from FLORIDA said:

Sam, the Big Bang occurred 13.7 billion years ago. Our solar system formed 4.6 billion years ago. A redshift of 1 equates to a distance of 7.5 billion light years-the universe's expansion has moved the object farther away and stretched the light's wave length even more-hence, the 10.7 billion years to reach us. Additionally, the Big Bang was not an explosion of matter but, rather, an explosion of space.

Submitted: 7/30/2012 9:08:06 PM (CST)

SAM NAUMAN from TEXAS said:

Great article. However, I am always confused as to how it took, for example, 10.7 billion years to get to us. Let's face it we were part of the Big Bang. We were not just stationary, sitting there waiting to see the beginning, as the light started coming to us. And if there was a big bang then matter would shoot off in all directions. Some Galaxies should be travelling in the same direction as our galaxy and others would be going the opposite direction. These should show different red shifts even though they started at the same time. Can anyone help with a simple explanation?

Submitted: 7/30/2012 10:53:55 AM (CST)

DAVID HARTSUYKER from CALIFORNIA said:

Are we able to track these object through time ?

Could we find this object say 100 million years later by changing the settings on the telescope? It would be interesting to see how it Changes over time.

Submitted: 7/27/2012 9:32:40 PM (CST)

DONNA GREVEN from MICHIGAN said:

I've been thinking that maybe it's the super-massive black hole at the center of spiral galaxies that "drives" the spiral; sort of like the accretiondisk of an ordinary black hole. Perhaos some models based on astro-math might shed some light on this. Unfortuneatly, I'm not a mathmetician, but an artist. And a "stellar tourist", but I think of such things.

Submitted: 7/27/2012 4:28:53 PM (CST)

BILL SIMPSON from LOUISIANA said:

They showed it on the evening news. Well they showed an image of some other spiral galaxy, while telling the viewers about the finding. (Unless something is wrong with your website that made it all fuzzy. It looks like my TV when it rains, which it is a lot lately.) At least it got some publicity. I wonder what galaxy they used? And how many people will email them and note that they were wrong. Probably 98% of them will be Astronomy readers.
It makes me wonder what images from the new generation of giant telescopes being planned for Hawaii & Chile will look like.

Submitted: 7/19/2012 1:26:37 AM (CST)