Monthly Archives: August 2013

astronomy

Zombies in Space!!!!!!!

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Well, Zombie Vortices, Actually

A protoplanetary disk artist’s concept based on observations made by the Keck II telescope. Vortexes Courtesy W.M. Keck Observatory

They sound like something from science fiction, from the most mysterious corners of the cosmos: Zombie Vortices. Yeah, I know, I cringed a little when I saw the term because there are already enough “weird” things attributed to space exploration by uneducated media practitioners, but this one actually fits.

To understand what zombie vortices are, let’s go back to the early history of our own solar system. Back when it was nothing more than a cloud of gas and dust, swirling around in space.  There were no planets yet, and the Sun was still forming. It was surrounded by a vast circumstellar disk of gas, dust, chunks of rock, and protocomets. As the Sun formed, that whole cloud of “stuff” began spinning faster and faster. But, if it had gotten to spinning too fast, the Sun might not have finished forming. It might have been starved of material and become only a brown dwarf (an object too hot to be a planet and too cool to be a star).

So, somehow, that Frisbee of gas and dust needed to LOSE angular momentum. This was so clumps of  material could continue to fall inward to the cloud core and contribute to the ever-growing infant Sun. Astronomers at University of California at Berkeley working on a model of  how stars form from whirling clouds of gas and dust also suspected that other theories, such as the interplay of material in the disk with magnetic fields, also didn’t explain how a disk could lose some of its angular momentum. So, they looked at how the density of gas in a cloud changes, and what such changes could do to a disk as it contributed to its forming star.

It turns out that changes in disk density makes parts of the cloud very unstable. And that leads to the formation of vortices in the disk. You’ve seen a vortex when you watch water swirl down a drain, if you’ve looked at pictures of Jupiter with its vortices, cloud whirlpools and storms. Such “dead zones” could destabilize the disk, and that would allow material to continue accreting onto the newly forming star. Subsequent generations of these “zombie vortices” could further affect the disk, and enable the continuing formation of the star.

There’s more work to be done by the astronomers to refine their model, but if this works out, it could go a long way toward explaining some more of the details of starbirth, and give further insight into our own star formed some 4.5 billion years ago.

alma

Starbirth Visions

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Starbirth Art and Science

An image of Herbig-Haro object HH 46/47 is based on observations made at radio wavelengths by ALMA as well as visible-light observations made with the European Southern Observatory’s New Technology Telescope. The ALMA observations (orange and green, lower right) of the newborn star reveal a large energetic jet moving away from us, which in the visible is hidden by dust and gas. To the left (in pink and purple) the visible part of the jet is seen, streaming partly towards us. Courtesy: ESO/ALMA (ESO/NAOJ/NRAO)/H. Arce. Acknowledgements: Bo Reipurth

This image may look like an impressionistic painting of space, but it’s based on actual data taken by the Atacama Large Millimeter/Submillimeter Array (ALMA) and observations in visible light taken with the New Technology Telescope (ESO),  high in the Andes of South America. It a multi-wavelength view that is giving astronomers a whole new view of a starbirth region not far from Earth.

First of all, what is this object?  As the caption says, it’s an image made from data taken during observations of a Herbig-Haro object. These glowing clouds of gas and dust are named after two astronomers named George Herbig and Guillermo Haro, who studied the properties of light they give off. Their work revealed that Herbig-Haro objects occur in starbirth areas where material ejected at really high speeds from newborn stars creates shocks in the surrounding clouds.

It turns out that young stars are really active and can be quite violent as they “grow up”, almost more like rebellious teenagers. They eject material away from themselves at close to a million kilometers per hour (about 640,000 miles per hour) through massive jets. When those jets intersect the surrounding cloud of gas and dust, it heats and energizes the gas, and that causes it to glow.

This particular Herbig-Haro object is actually quite close to us in cosmic terms—only about 1,400 light-years away. In the newly released ALMA image, astronomers can make out two jets. One is headed toward Earth and the other points away from us.  In this image, the jets stream out to the upper left and lower right. The newborn star is at the center of the butterfly-shaped object. Interestingly, the birth cloud for the hot young star doesn’t seem to be symmetrical. You can tell because one jet seems to be slamming into thick areas of cloud while the other jet escapes almost to empty space. In addition, astronomers think there may be a third outflow from the young star, carving its way out from the birth nest.

Radio astronomy (which senses wavelengths of light or radio frequencies commonly known as radio, millimeter, submillimeter, and microwave) allows astronomers to look beyond clouds of gas and dust that can block visible light and hide things from our view. The ALMA installation is an array of multiple sensors that can take very high resolution (sharp) data of distant objects and show us more detail in them. ALMA is only just beginning its “career” as Earth’s latest radio telescope array designed to ferret out naturally occurring signals from active objects in the cosmos.