Cosmic… and Highly Fascinating
You can breathe a sigh of relief, since this will happen in very distant future, and it won’t hit us directly. This cloud of gas, called “Smith’s Cloud” will hit farther out in the galaxy than the region where we bob along on the galactic currents, and about 90 degrees ahead of us as the galaxy spins. Still, on the odd chance that you’re still around when this happens, look for certain parts of the sky to light up and blaze as the collisions trigger bouts of star formation. Read more about it here.
Speaking of violence in galaxies, the Chandra X-Ray Observatory is taking a look at black holes in galaxy cores, and providing evidence that many supermassive black holes embedded in these hidden regions are spinning extremely rapidly. Now, if you were hanging around the accretion disks that are circling the drain around these black holes, you’d notice that all the stuff in the disk (including, presumably, you) would be getting flung around in orbit around the black hole at close to the speed of light.
And what about that quark ball I mentioned? This morning we had a press conference about a pulsar in a globular cluster. Using Arecibo to measure the timing of the pulsar’s signal, astronomers have been able to determine a pretty good estimate of the mass of the neutron star at the heart of the pulsar. Now, neutron stars are pretty darned massive; they are basically a ball of matter the mass of Earth squeezed into a region of space about 7-14 kilometers wide. Nobody knows what matter is like after it’s been compressed this tightly, but one very educated guess is that it could be a ball of quarks (subatomic particles) glued together. Particle physicists can’t even model this state of matter in an accelerator!
Astronomers using telescopes on Mauna Kea in Hawai’i have found a rare quartet of stars that orbit each other within a region smaller than Jupiter’s orbit around the Sun. Could they have been born in this close proximity? Or, did something else happen to force them to snuggle up together? Check it out.
Planets haven’t been left out of the excitement at this meeting. An astronomer at the University of Texas at Austin has made the first ground-based discovery of an extra-solar planet’s atmosphere, using the Hobby-Eberly Telescope at McDonald Observatory.
Finally, there’s a new radio series on NPR called “Cosmic Radio.” Produced by the National Radio Astronomy Observatory, the series is bringing the history and science of radio astronomy to listeners, in 2.5-minute bite-size lengths. Check out the program’s Web Site for more details.
It’s been a productive and exciting week here in Austin. This “astronomy seminar” is about to come to a close, but for all of us interested in the ongoing research that brings us closer to understanding the cosmos, the story continues…