Shuttle Radar Clears the Air on Central America’s Topography

NASA’s Jet Propulsion Laboratory has completed the first comprehensive high-resolution topographic map of Central America, a region where persistent cloud cover had made high-quality satellite imagery difficult to obtain. A mosaic image created from the map, which was collected during the 2000 Shuttle Radar Topography Mission, is available on the JPL Planetary Photojournal at: http://photojournal.jpl.nasa.gov/catalog/PIA03364

New planet detection technique can spot even small worlds around distant stars

An extrasolar planet has been discovered using a new technique that will allow astronomers to detect planets no other current method can. Planets around other stars have been previously detected only by the effect they have on their parent star, limiting the observations to large, Jupiter-like planets and those in very tight orbits. The new method uses the patterns created in the dust surrounding a star to discern the presence of a planet that could be as small as Earth or in an orbit so wide that it would take hundreds of years to observe its effect on its star.

Who’s the man? Alan Boyle, that’s who!

A big halloo and thanks to MSNBC’s Alan Boyle, who has graciously linked to Science Blog from his terrific Cosmic Log. Boyle’s stuff has been a regular read of mine for a while. And it should be for you too! Incidentally, since we’ve never met Alan, a quick Google image search on his name revealed this intriguing photo. Not only a great writer, but a Mr. Universe candidate as well? (In fact, the real Alan Boyle can be found here :->)

Time to adjust the compass?

Working high in the Canadian Arctic, researchers from the University of Rochester say they’ve found that several aspects of the powerhouse that drives the Earth’s magnetic field may be related. That’s new in itself. But the team also thinks it may indicate our planet’s about ready for a pole reversal, in which all compasses will begin pointing south.

Neural stem cells used to hunt, kill brain cancer

Using neural stem cells to hunt down and kill cancer cells, researchers have successfully tested a new treatment for brain cancer. They now hope the technique will lead to an effective treatment for glioma, the most aggressive form of primary brain tumor in humans. As the Cedars-Sianai researchers note, the prognosis has historically been extremely poor for patients diagnosed with malignant gliomas. The tumors have poorly defined margins, and glioma cells often spread deep into healthy brain tissue making their surgical removal difficult. Often, pockets of tumor cells break off from the main tumor and migrate deep into non-tumorous areas of the brain. Therefore, even if the original tumor is completely removed or destroyed, the risk of recurrence is high as cells in these distant “satellites” multiply and eventually re-form a new brain tumor. Due to these characteristics, treating brain cancer has been extremely difficult.

Speeding star indicates mondo black hole in middle of Milky Way

Researchers say they’ve successfully tracked a star racing around a dark mass at the center of our Milky Way galaxy, offering strong support for the theory that a black hole is at the center of our little corner of space. Astronomers at the Max Planck Institute for Astrophysics tracked the orbit of the closest known star to the black hole candidate Sagittarius A*, a dark mass 3,000,000 times the mass of the sun. Following the star for 10 years, they found that it does indeed orbit Sagittarius A*. Approaching the black hole’s maw, the star reaches its highest velocity, whizzing past it at 5,000 kilometers per second.

GPS takes piloting to new level of accuracy

NASA has developed a way to pilot aircraft independent of local navigational aids, infrastructure and even good ol’ landmarks. The NASA Global Differential GPS system at NASA’s Jet Propulsion Laboratory has demonstrated the ability to achieve real-time aircraft positioning accuracy of 10 centimeters horizontally and 20 centimeters vertically, anywhere in the world. Think of it this way: Using the NASA system, a pilot could remotely navigate an unmanned aircraft from, say, Atlanta, Georgia and have it land within three inches of its target in Tokyo, Japan.

Discovery of Big Space Object Renews Debate About Pluto’s Status

The identifying of a massive, 745-mile-diameter object at the far reaches of our solar system has reopened a debate regarding the planetary status of that ninth pile from the sun, Pluto.
National Geographic reports that the newly-noticed space item is named Quaoar (pronounced “KWAH-o-ar”) and is located in the Kuiper belt, a celestial district 4 billion miles from Earth and relatively close to Pluto. Like the Disney dog-named sphere, Quaoar is composed of rock and ice. Also, its orbit is similar to Pluto’s but differs from the eight other planets. “Pluto is the largest known Kuiper belt object,” a University of Hawaii astronomer says. “Some people think of it as a planet as well. That’s fine, of course, but the reasons for doing so are historical, or sociological at best.”

Do you see the key?

If a code is really good, it doesn’t matter much if the enemy (you know, them) gets ahold of one of your encrypted messages. What is risky, is letting your code key fall into the wrong hands. And their delivery is often the weak link in a communications network. “At the moment, highly secure encryption keys are typically sent by a man on a motorbike or a guy with a diplomatic bag,” notes one wonk. But researchers have devised a way to deliver keys using a beam of light, attaching data to individual photons as they stream from sender to receiver. The neat thing about that is if the light beam is intercepted and read, the state of the photons changes, alerting the recipient that the key has been compromised. Thursday British researchers said they’d reached a new milestone in the distance they can send encryption keys this way: 14 miles. It doesn’t sound like much, but it sure beats the few feet the technique could muster just a couple years ago. Expect earth-to-satellite distances soon.

Look, up in the sky… CLUNK!

Ice meteors are falling from the sky in growing numbers. And while some skeptics still think the phenomenon a hoax or the result of ice from planes passing overhead, a Spanish scientist says they are neither. Though he doesn’t know precisely how the meteors form, Jesus Martinez-Frias, director of planetary geography at Spain’s Astrobiology Center in Madrid, notes that their results can be dramatic. The falling ice blocks tend to weigh upwards of 20 pounds and have smashed in cars, destroyed roofs and caused general mayhem where they land. But Martinez-Frias says he isn’t concerned so much about the terrestrial damage they can cause, but the atmospheric damage he believes they portend. “I’m not worried that a block of ice might fall on your head … but that great blocks of ice are forming where they shouldn’t exist,” he said. “Components of the atmosphere, like ozone and water, are changing in different levels of the atmosphere. … We think these signs could be evidence of climate change,” he told Reuters.

Alien bugs here on Earth?

A tough microbe called Deinococcus radiodurans can withstand blasts of radiation, enduring several thousand times the lethal dose for humans. How did these little bugs develop this resistance? A team of Russian scientists has concluded that these extraordinary organisms are actually Martian microbes, here on Earth by way of meteorites. In tests on common bacteria E. coli, the scientists determined that evolution of radiation-resistance would take longer than 3.8 billion years, the time that life has been on Earth. In contrast, the bugs could develop this characteristic on the Red Planet in only a few hundred thousand years. On Mars there are much higher levels of radiation and the planet experiences regular climate swings that would induce dormancy in microbes, allowing them to accumulate sufficient doses of radiation to evolve into radiation-resistant critters.

See also: Acidic clouds of Venus could harbour life

Device gives smart bombs a headache

Plans for GPS-guided bombs to do much of the heavy lifting in a U.S. war on Iraq could be seriously hampered by a $40 device available over the Internet. As reported by the Wall Street Journal, so-called global positioning system “jammers” can interrupt the system’s satellite signal. “At the Paris Air Show in 1999, a Russian company called Aviaconversia demonstrated a 4-watt GPS jammer, weighing about 19 pounds, capable of denying GPS reception for more than 100 miles,” the paper says. “While we do not know the extent of our vulnerability, there is evidence to suggest that GPS jamming can significantly inhibit precision targeting,” says Rep. Joseph Pitts (R., Penn.), co-chairman of Congress’ Electronic Warfare Working Group. So far the only known fix is to boost the GPS signal strength. But without new satellites in place, there’s only so far that approach can go.