Category Archives: astronomy news

astronomy news, comet, European Space Agency

Rosetta’s Comet Target is a Rotating Two-body Comet

10 Comments

What do You Do When Your Target Looks like a Rubber Ducky in Space?

A sequence of 36 interpolated images of comet 67P/Churyumov-Gerasimenko each separated by approximately 20 minutes. The images were obtained by OSIRIS on July 14th, 2014 from a distance of approximately 12,000 kilometers (Courtesy: SA/Rosetta/MPS for OSIRIS Team MPS/UPD/LAM/IAA/SSO/INTA/UPM/DASP/IDA)

Imagine designing a mission to land a probe on a comet. You have to make some assumptions about the comet nucleus, such as its shape, rotation rate, velocity, and what kind of ice it’s made of.  That’s what the planners for the European Space Agency’s Rosetta mission had to do, and this week, they’re getting the first up-close images of the target, Comet 67P/Churyumov-Gerasimenko. When the first views came from the spacecraft, I’m sure the scientists were probably incredibly excited to find out that this comet is not just your run-of-the-mill dented-in icy nucleus with a few jets. No way.  Instead, they’ve drawn the cosmic equivalent of a winning lottery ticket: a sort of double-lobed shaped nucleus that someone described as a rotating “rubber ducky” in space.

Check it out for yourself.

Yes, this is not like any other comet astronomers have seen.  And, it’s spurring a LOT of speculation. I used to study comets in grad school, and several questions came to mind immediately. For starters, how did it get to be this shape? Was this nucleus once two chunks of ice that somehow slammed together in the past and are now orbiting wildly in orbit? That would make it the first “contact binary” comet discovered.  Or, was it one huge chunk of ice that somehow got eroded or broken apart, leaving behind this rotating ducky-shaped object?

To answer the question the mission scientists will use the Rosetta spacecraft’s instruments and cameras to study the surface characteristics of the comet. The data they gather will tell them the ice and mineral makeup. If the nucleus came from one body, then the whole thing should show the same mineralogical makeup. If it came from two different bodies, then the studies will show slight (or perhaps not-so-slight) differences in the ices and dust grains on the surface.

When Rosetta gets to the comet (and the scientists decide to deploy it), it will send a small lander called Philae to settle down to the surface to give us some views from the comet, and also give some first-hand information about the surface materials it will be sitting on. Of course, with a two-body comet, now the big question is, WHERE do you land it?  In particular, if this comet turns out to be made of two different chunks of ice and dust, which side do you pick to study?

Stay tuned because Rosetta is supposed to be at its closest approach to the comet on the morning of August 6th, 2014. It will be an exciting morning for another solar system “first”!

astronomy, astronomy news, galaxies, galaxy interactions, galaxy shapes

Galaxy in the Shape of a Hummingbird

Leave a comment

Could the Cosmos Get Any More Fascinating???

A long time ago, back when I was in graduate school, I used to collect those “newspapers” you see at the checkout counters in stores. You know the ones I mean—the ones with screaming headlines about alien babies and mutant animals and UFOs. Since I worked on a Hubble Space Telescope instrument team, I was particularly interested in seeing headlines about it. There were two stories that really made me laugh. The first was headlined “Astronomers Discover Galaxy in Shape of Fetus!!!!!!” and the other was “Hubble Space Telescope Takes Image of Heaven!!!!!”

This interacting galaxy duo is collectively called Arp 142. The pair contains the disturbed, star-forming spiral galaxy NGC 2936, along with its elliptical companion, NGC 2937 at lower left. Courtesy NASA/ESA Hubble Space Telescope/Hubble Heritage Team (STScI/AURA).

Of course, the image of heaven was an HST image of the Orion Nebula, which is a research heaven for people who are studying starbirth regions. But, there was no galaxy fetus out there. The editors of that story had found a press release about how astronomers had detected a faint rhythmic radio signal from a region in a distant galaxy, probably from a supernova or something. Somehow that got transmogrified into a baby galaxy headlined on a pulp rag.

There ARE lots of interestingly shaped galaxies out there, and this week Hubble Space Telescope astronomers released an image of and story about a distant galaxy that looks similar to a hovering hummingbird, sitting close to another elliptical galaxy. It’s called Arp 142, and it’s a snapshot of galaxies interacting. The whole dance of these two galaxies takes millions and millions of years, so we only get to see freeze-frame images like this one.

So, what’s going on here?  Let’s deconstruct the scene.  The “hummingbird” shape galaxy was a spiral galaxy before it began interacting with the elliptical just below it. The gravitational pull between the two galaxies warps the spiral and that affects the orbits of its stars and nebulae. Essentially, it warps the spiral, resulting in the shape you see here.  You can also see interstellar gas being pulled out of the spiral almost like a giant string of taffy.

The whole process compresses the gas and dust in the galaxy, which triggers star formation. You can see blobs of blue throughout the galaxy—those are starburst knots caused as the gravitational dance continues on.  The reddish dust  lanes used to be inside the galaxy. Now they’re being thrown out and compressed into the dark veins you see silhouetted against the bright starlight.

The companion elliptical, NGC 2937, is a puffball of stars with little gas or dust present. The stars contained within the galaxy are mostly old, as evidenced by their reddish color. There are no blue stars that would be evidence of recent star formation. While the orbits of this elliptical’s stars may be altered by the encounter, it’s not apparent that the gravitational pull by its neighboring galaxy is having much of an effect.

Above the pair, an unrelated, lone, bluish galaxy, inconsistently cataloged as UGC 5130, appears to be an elongated irregular or an edge-on spiral. Located 230 million light-years away, this galaxy is much closer to us than the colliding pair, and therefore is not interacting with them. It happens to lie along the same line of sight to foreground Milky Way stars caught in the image.

Now, I find this to be a MUCH more satisfying story than the kinds of things you read in the supermarket rags. Nothing their editors can dream up is anywhere NEAR as fascinating as what the actual cosmos is revealing to us through the watchful eye of the Hubble Space Telescope!