astrophysics
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NASA WISE Deputy Project Scientist Amy Mainzer on the Apple //e and Kinect-powered laptops
Every week, a new and interesting human being tackles our decidedly geeky take on the Proustian Q&A. This is the Engadget Questionnaire. In our latest round of gadget-related queries, Astrophysicist and NASA Jet Propulsion Laboratory Principle Scientist Amy Mainzer discusses the fully-body typing experience and planetary preservation. Join us after the jump for her responses to our full barrage of questions.
University of Montreal detects an orbitless planet, shows that stars don't have an iron grip (video)
Astronomers have long theorized that there are many planets that have drifted away from their home stars, whether it's a too-loose gravitational pull during the planet's formation or a stellar tug-of-war. We've never had a reasonable chance of locating such a wanderer until today, however. The University of Montreal believes it has spotted CFBDSIR2149, an awkwardly-named gas giant four to seven times larger than Jupiter, floating by itself in the AB Doradus Moving Group of young stars. Scientists made the discovery first by pinpointing their target through infrared images from the Canada-France-Hawaii Telescope, and later using the Very Large Telescope to deduce that the object was both too small to be a star as well as hot and young enough (752F and under 120 million years old) to fit the behavior of a planet orphaned early into its existence. With CFBDSIR2149's nature largely locked down, the challenge now is learning just how common such lonely examples can be; when it's much easier to focus on the stars while hunting for planets, finding any more strays could prove to be a daunting task.
Scientists release biggest ever 3D map of the universe, lacks turn-by-turn navigation (video)
The stargazers at the Harvard-Smithsonian Center for Astrophysics have released a huge three-dimensional map of outer space, a core part of its six-year survey of the skies. Encompassing four billion light-years cubed, the researchers hope to use the map to retrace the movements of the universe through the last six billion years. Using the latest Sloan Digital Sky Survey (SDSS-III), the center says the data will help improve their estimates for the quantity of dark matter in space and the effect that dark energy has on the universe's expansion, "two of the greatest mysteries of our time" -- if you're an astrophysicist. Even if you're not, you'll still want to board the animated flight through over 400,000 charted galaxies -- it's embedded after the break.
Scientists capture birth of new planet on camera, mother and child doing just fine
After all the pushing, squeezing and screaming, the universe has finally given birth to a new planet, in an eruption that two scientists managed to capture on film. The newborn pile of planetary pudge, named LkCa 15 b, was discovered by Drs. Michael Ireland and Adam Kraus, who, over the course of 12 months, successfully documented the event using Keck telescopes and a technique called aperture mask interferometry. Their findings, published in Astrophysical Journal describe a Jupiter-like gaseous planet that likely began forming some 50,000 to 100,000 years ago. Located about 450 light years from Earth, it's also the youngest planet ever observed, having dethroned the previous record-holder, which was about five times older. According to Ireland and Kraus, the LkCa 15 b is still being formed out of a circle of dust and gas (pictured above) surrounding a 2-million-year-old star. By observing a "young gas giant in the process of formation," the researchers hope to find answers to fundamental questions that have long eluded them. "These very basic questions of when and where are best answered when you can actually see the planet forming, as the process is happening right now," Kraus explained to the AP. Head past the break to see an artist's rendering of the newborn, and if you get the chance, be sure to send flowers.
NASA concludes Gravity Probe B space-time experiment, proves Einstein really was a genius
Well, it looks like Einstein knew what he was talking about, after all. Earlier this week, researchers at NASA and Stanford released the findings from their six-year Gravity Probe B (GP-B) mission, launched to test Einstein's general theory of relativity. To do so, engineers strapped the GP-B satellite with four ultra-precise gyroscopes to measure two pillars of the theory: the geodetic effect (the bending of space and time around a gravitational body) and frame dragging (the extent to which rotating bodies drag space and time with them as they spin on their axes). As they circled the Earth in polar orbit, the GP-B's gyroscopes were pointed squarely at the IM Pegasi guide star, while engineers observed their behavior. In the universe outlined by Einstein's theories, space and time are interwoven to create a four-dimensional web, atop which the Earth and other planetary bodies sit. The Earth's mass, he argued, creates a vortex in this web, implying that all objects orbiting the planet would follow the general curvature of this dimple. If the Earth's gravity had no effect on space and time, then, the position of NASA's gyroscopes would have remained unchanged throughout the orbit. Ultimately, though, researchers noticed small, but quantifiable changes in their spin as they made their way around the globe -- changes that corroborated Einstein's theory. Francis Everitt, a Stanford physicist and principal investigator for the mission, poetically explained the significance of the findings, in a statement: "Imagine the Earth as if it were immersed in honey. As the planet rotated its axis and orbited the Sun, the honey around it would warp and swirl, and it's the same with space and time. GP-B confirmed two of the most profound predictions of Einstein's universe, having far-reaching implications across astrophysics research. Likewise, the decades of technological innovation behind the mission will have a lasting legacy on Earth and in space." The GP-B mission was originally conceived more than 50 years ago, when the technology required to realize the experiment still didn't exist. In fact, the experiment didn't actually get off the ground until 2004, when the satellite was launched into orbit 400 miles above Earth. After spending just one year collecting data (and an impressive five years analyzing the information), NASA has finally confirmed something we always quietly suspected: Einstein was smart. Head past the break to see a more in-depth diagram of how the GP-B gathered its data.
Pulsar clocks spin closer to reality
Contrary to popular legend, Pulsar wristwatches don't use the light of dying stars to keep time. However, if researchers at the University of Manchester are correct, the strobe-like effect generated by a collapsed star's spin may indeed be the most accurate clock (sorry, atoms) available to mankind. While pulsars have long been studied for insight into the nature of time and gravity, their patterns weren't as regular as scientists would like, but the U of M team believe that's because the stars are actually swapping between two different states, each with their own rotation speed. By correcting for the difference when the hunk of burning gas puts on the brakes, they can make measurements far more precise -- meaning a greater understanding of the fabric of space-time for the brainiacs, and if we're lucky, reliable pulsar clocks within our lifetime.
