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Astronomers discover surprising clutch of hydrogen clouds lurking among our galactic neighbors

Scientists were able to detect discrete concentrations of neutral hydrogen emerging out of what was thought to be a mainly featureless field of gas between the Andromeda and Triangulum galaxies.
RELATED TOPICS: GALAXIES | ANDROMEDA GALAXY
Intergalactic clouds between Andromeda and Triangulum galaxies
This combined graphic shows new high-resolution GBT imaging (in box) of recently discovered hydrogen clouds between M31 (upper right) and M33 (bottom left). // Bill Saxton, NRAO/AUI/NSF
In a dark starless patch of intergalactic space, astronomers have discovered a never-before-seen cluster of hydrogen clouds strewn between two nearby galaxies, Andromeda (M31) and Triangulum (M33). The researchers speculate that these rarefied blobs of gas — each about as massive as a dwarf galaxy — condensed out of a vast and as-yet undetected reservoir of hot ionized gas, which could have accompanied an otherwise invisible band of dark matter.

The astronomers detected these objects using the National Science Foundation’s Green Bank Telescope (GBT) at the National Radio Astronomy Observatory (NRAO) in Green Bank, West Virginia.

“We have known for some time that many seemingly empty stretches of the universe contain vast but diffuse patches of hot ionized hydrogen,” said Spencer Wolfe of West Virginia University in Morgantown. “Earlier observations of the area between M31 and M33 suggested the presence of colder neutral hydrogen, but we couldn’t see any details to determine if it had a definitive structure or represented a new type of cosmic feature. Now, with high-resolution images from the GBT, we were able to detect discrete concentrations of neutral hydrogen emerging out of what was thought to be a mainly featureless field of gas.”

Astronomers are able to observe neutral atomic hydrogen, which is referred to as HI, because of the characteristic signal it emits at radio wavelengths, which can be detected by radio telescopes on Earth. Though this material is abundant throughout the cosmos, in the space between galaxies it can be very tenuous and the faint signal it emits can be extremely difficult to detect.

A little more than a decade ago, astronomers had the first speculative hints that a previously unrecognized reservoir of hydrogen lies between M31 and M33. The signal from this gas, however, was too faint to draw any firm conclusions about its nature, origin, or even certain existence. Last year, preliminary data taken with the GBT confirmed that there was indeed hydrogen gas — a lot of it — smeared out between the galaxies. These preliminary observations, however, lacked the necessary sensitivity to see any fine-grain structure in the gas or deduce where it came and what it signified. The most likely explanation at the time was that a few billion years earlier, these two galaxies had a close encounter and the resulting gravitational perturbations pulled off some wispy puffs of gas, leaving a tenuous bridge between the two.

New and more thorough studies of this region with the GBT, however, revealed that the hydrogen gas was not simply in the form of wispy streamers, as would be expected by the interactions of two galaxies in a gravitational ballet. Instead, a full 50 percent of the gas was conspicuously clumped together into very discrete and massive blobs that — apart from their lack of stars — would be dead ringers for dwarf galaxies. Dwarf galaxies, as their name implies, are relatively small collections of stars bound together by gravity. They can contain anywhere from a few thousand to a few million stars.

The GBT also was able to track the motion of these newly discovered clouds, showing that they were traveling through space at velocities similar to M31 and M33. “These observations suggest that they are independent entities and not the far-flung suburbs of either galaxy,” said Felix J. Lockman from the NRAO in Green Bank. “Their clustered orientation is equally compelling and may be the result of a filament of dark matter. The speculation is that a dark matter filament, if it exists, could provide the gravitational scaffolding upon which clouds could condense from a surrounding field of hot gas.”

The researchers also speculate that these clouds may represent a new and previously unrecognized source of neutral hydrogen gas that could eventually fall into M31 and M33, fueling future generations of star formation.

The GBT, because of its enormous size, unique design, and location in the National Radio Quiet Zone of West Virginia, was able to detect this signal, which was simply too faint for other radio telescopes to detect with precision. “The GBT is unique in this regard,” said Lockman.

Astronomers also are interested in these cold, dark regions between galaxies because there is a great deal of unaccounted normal matter in the cosmos, and a significant fraction may be contained in intergalactic clouds like the ones observed by the GBT. Further studies in this region and around other galaxies in our Local Group — the galaxies found relatively close to the Milky Way — may yield additional clues as to the amount of hydrogen yet to be accounted for in the universe.

“The region we have studied is only a fraction of the area around M31 reported to have diffuse hydrogen gas,” said D. J. Pisano of West Virginia University. “The clouds observed here may be just the tip of a larger population out there waiting to be discovered.”
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