Physics & Mathematics

An experiment scheduled for todays Space Shuttle Columbia mission may provide clues about just how plant growth is guided by gravity. The study, an extension of work from a previous shuttle mission in 1997, should test whether the absence of gravity changes how simple plants grow. The experiment will use common roof moss (Ceratodon purpureus), a plant that uses gravity to determine the direction that single cells grow.

A team of California astronomers announced today that its robotic telescope has captured one of the earliest images ever of the visible afterglow of a gamma-ray burst. The telescope started its exposures 108 seconds after the burst was detected by the HETE-2 satellite and continued for more than 2.5 hours, until brightening of the dawn sky halted the observations. The unprecedented record of the fading glow, captured Dec. 11, will help theorists as they puzzle out the physics of these bizarre cataclysmic events, which are heralded by a brief burst of energetic gamma rays and X-rays emitted billions of years ago and followed by a fading optical light.

Astronomers have discovered three of the oldest, most distant quasars yet found — quasars close to the Big Bang that began the universe. Xiaohui Fan of the University of Arizona’s Steward Observatory in Tucson, Ariz., will present the results at the American Astronomical Society’s meeting in Seattle. Fan, leader of the team that discovered the objects, explained that these distant quasars — compact but luminous objects thought to be powered by super-massive black holes — reach back to a time when the universe was just 800 million years old. The highest redshift quasar is roughly 13 billion light years away and was discovered recently in the constellation Ursa Major.

A team of astronomers is using one of the most advanced ground-based telescopes in the world to “zoom-in” on protostars in the Orion Nebula, revealing in unprecedented detail a variety of phenomena associated with star and planet formation in the presence of extremely massive, luminous stars. These phenomena include high-velocity jets of gas launched from the protostars themselves; evaporation flows driven by the intense radiation of nearby massive stars; and colliding winds that form thin, filamentary sheets of gas.

A new study has uncovered more evidence that black holes form before the galaxies that contain them. The finding could help resolve a long-standing debate, says the study’s lead scientist. Marianne Vestergaard, a postdoctoral fellow in astronomy at Ohio State, came to this conclusion when she studied a collection of very energetic, active galaxies known as quasars as they appeared some 12 billion years ago, when the universe was only one billion years old. While the quasars were obviously young — they contained large stellar nurseries in which new stars were forming — each also contained a very massive, fully formed black hole.

The discovery of a faint trail of stars in the nearby Andromeda galaxy offers new evidence that large spiral galaxies have grown by gobbling up smaller satellite galaxies. Andromeda (also known as M31) is the nearest large galaxy to our own Milky Way and is very similar to it in appearance. Studying Andromeda gives astronomers an external perspective on a galaxy much like our own–it’s like looking at a bigger sibling of our galaxy.