Category Archives: starbirth

astronomy news, astrovisualization, hubble space telescope, starbirth, stars

Hey, You! Yeah, Look at THOSE Bright Stars!

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Follow the Pointer

A wide-field image of WR-25 and Tr16-244 in the Carina Nebula. Courtesy NASA/ESA Hubble Space Telescope.
A wide-field image of WR-25 and Tr16-244 in the Carina Nebula. Courtesy NASA/ESA Hubble Space Telescope.

My friend Phil Plait has a thing about instances of pareidolia — the tendency of humans to see interesting patterns in things.  It’s a peculiar psychological thing that our primate brains do to us when we see things we don’t immediately understand or can’t place in context. So, for example, you look up at clouds in the sky and see spaceships or dogs playing or sheep sleeping or whatever it is that the cloud seems to resemble. And, of course, there are tendencies among some folks to see things like faces of deities in toast and tortillas, or peeling paint, or the bark on trees. It’s all very amusing and shows you how complex our brains are.

Astronomy images provide hours of merriment for pareidoliacs.  Take this picture, for example.  It’s a Hubble Space Telescope view of a gas and dust cloud where star formation is taking place. Notice in the very top of the picture that there’s a thick cloud of dust in the shape of a pointing finger. At least, that’s what it looks like to me.  And, it  might appear that way to you, too.

Well, you might ask — what’s it pointing to?  Good question, and the answer is what the subject of the image really is:  a pair of massive bright stars down in the lower third of the image that are shining out like a pair of headlights. (Or, if you’re a fan of LOLcats, they look like “cat lazors” charging up.)

This scene is smack in the middle of the Carina Nebula, a huge region where clouds of gas and dust are combining to form new stars. It is about 7,500 light-years away from us, and also contains the luminous blue variable Eta Carinae, which is expected to pop off as a supernova pretty much any time now (in cosmic terms).

It turns out those two bright stars have an interesting connection to the pointy-finger cloud. The bright star in the lower center is called WR-25, and its quite massive — more than 50 times the mass of our Sun.  In fact, it’s really two stars orbiting a common center of mass. They hot, bright, and interacting with each other.

The star to the left of WR-25 is called Tr16-244, and it’s actually three stars orbiting a common center of gravity — a triple-star system. Together, these two star systems are eating away at the clouds of gas and dust. That “cannibalization by radiation” is actually what sculpted the finger-shaped cloud. It’s amost as if the cloud is pointing the finger of blame back to the stars that shaped it — a nice case of cosmic pareidolia.

galaxies, galaxy interactions, starbirth

Star Pump

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The Little Galaxy that Could

Galaxies make stars. That’s what they’ve done since, well, since just about forever–in the cosmic scheme of things. Colliding galaxies pump out stars in huge batches. The action of smashing together two galaxies usually compresses their clouds of gas together and when you compress enough hydrogen gas together, you get stars. In colliding galaxies you get massive starburst regions like the one in NGC 1569, seen here through several observations made by Hubble Space Telescope’s Wide-Field Planetary Camera 2 and the Advanced Camera for Surveys.

Starburst galaxy NGC 1569. Whats causing its starburst activity?
The core of the starburst galaxy NGC 1569. This region contains three giant star clusters grouped inside a huge central cavity hollowed out by winds from the formation of massive stars. Those stars are long gone, having exploded as supernovae. The outbursts from those explosions hurled a river of gas and dust that is sculpting the 3,700 light-year-long outflow structure at the lower right (in red). (Click to embiggen.)

Now, astronomers have long puzzled over a small, isolated nearby galaxy (about 11 million light-years away) because it is ablaze with starburst activity. There are millions of newly formed stellar babies here, and this galaxy is continuing to pump out newborns a hundred times faster than the starbirth regions in the Milky Way Galaxy. So, given the intense rate of starbirth, you’d think you’d there’d be a collision involved here.

But, no, this galaxy seems to be all by itself.

Or so astronomers thought.

When they reanalyzed the observational data, they found that it really lies about one and a half times farther away from us than they thought. And that makes a huge difference. It puts this galaxy in the middle of a group of ten other massive galaxies. Interactions between this group that may be the culprit in compressing the gases in NGC 1569 and pumping up its prodigious starbirth engines. That interaction also makes this one of the most active galaxies in our local neighborhood.