Epic search for evidence of life on Mars heats up with focus on high-tech instruments

Sensitive instuments onboard the Mars rover Curiosity and other future space missions will be key to detecting
signs of life on the planet.  (Photo by NASA/JPL-Caltech)

DENVER, Aug. 30, 2011 — Scientists are expressing confidence that questions about life on Mars, which have captured human imagination for centuries, finally may be answered, thanks in part to new life-detection tools up to 1,000 times more sensitive than previous instruments.

“The bottom line is that if life is out there, the high-tech tools of chemistry will find it sooner or later,” said Jeffrey Bada, Ph.D., co-organizer of a special two-day symposium on the Red Planet, which began here today during the 242nd National Meeting & Exposition of the American Chemical Society (ACS). “It certainly is starting to look like there may be something alive out there somewhere, with Mars being the most accessible place to search,” Bada added.

The symposium included more than two dozen presentations by experts concerned with whether life exists, or existed, on Mars. Abstracts of the presentations appear below.

A Planet Made of Diamond

Artist's Conception(Photo by the Swinburne University
of Technology)

A once-massive star that’s been transformed into a small planet made of diamond: that’s what astronomers think they’ve found in our Milky Way.

The discovery, reported today in Science, was made by an international research team led by Professor Matthew Bailes, Pro Vice-Chancellor (Research) at Swinburne University of Technology in Melbourne and the ‘Dynamic Universe’ theme leader in a new wide-field astronomy initiative, the ARC Centre of Excellence for All-sky Astrophysics (CAASTRO).

The researchers, from Australia, Germany, Italy, the UK and the USA, first detected an unusual star called a pulsar using the CSIRO Parkes radio telescope and followed up their discovery with the Lovell radio telescope in the UK and one of the Keck telescopes in Hawaii.

Pulsars are small spinning stars about 20 km in diameter—the size of a small city—that emit a beam of radio waves. As the star spins and the radio beam sweeps repeatedly over Earth, radio telescopes detect a regular pattern of radio pulses.

For the newly discovered pulsar, known as PSR J1719-1438, the astronomers noticed that the arrival times of the pulses were systematically modulated. They concluded that this was due to the gravitational pull of a small companion planet, orbiting the pulsar in a binary system.