Thaindian News

London, May 2 (ANI): A team of scientists have developed a new type of ice-melting probe, known as an IceMole, which may one day penetrate frozen environs on Earth or Mars.

Bernd Dachwald and his team watched their IceMole robot autonomously drill through a small section of Morteratsch Glacier in Switzerland during the summer of 2010.

“This was a major milestone,” Nature quoted Dachwald, an aerospace engineer at Fachhochschule Aachen University in Aachen, Germany, as saying.

Dachwald presented results from IceMole’s first field test at the 2011 Antarctic Science Symposium in Madison, Wisconsin, on April 27.

“We have proof that IceMole works not only in the lab but also in a real environment,” he said.

The researchers worked on the probe for two-years, and they believe it could one day penetrate sub-surface lakes in the Antarctic, dig through the ice caps of Mars or churn through the frozen crust of Europa.

Probes with heated tips have been used since the 1960s to bore through ice, but engineers found that dirt and sediment would often build up at the robot’s head, impeding the transfer of heat. And most of these designs had the capacity to move in only one direction: down.

IceMole includes a six-centimetre screw at its heated head, which allows it to keep in firm contact with the ice surface it is trying to melt, and to pull itself horizontally through ice layers and even upward, against gravity.

The configuration permits the robot to easily penetrate dirt and should even work in places where the ice is in a near vacuum, such as a comet’s nucleus.

The pencil-shaped craft is designed to autonomously deploy and dig itself into ice. By differentially heating parts of its tip, the robot can change direction.

During its first trial run, IceMole moved at a leisurely 30 centimetres per hour, but the team says that optimal conditions would allow it to travel at more than three times that speed.

The robot houses its own internal power generator and is attached by means of a cable to a computer at the surface, which collects data.

In its recent test, IceMole carried an off-the-shelf camera, but the team is designing fluorescence biosensor detectors that could search for organic molecules in the ice during its next trial run, scheduled for the summer of 2012.

The probe will convey sensors in five containers running behind it, tethered together like the cars of a train. These canisters can be jettisoned on command, to seize the walls of the melted channel and be placed in specific locations.

The team hopes to eventually work with other researchers that would use IceMole to drop sensors deep in icy environments.

The IceMole team is working on a sterilization method that would drive the whole probe through a bath of hydrogen peroxide before deployment.

Beyond Earth, the robot could drill into the Martian ice caps, searching for clues about the planet’s climate history or signs of life, past or present.

Because it can bore through dirty ice, IceMole might also be useful on comet missions to investigate their porosity and chemical makeup, Dachwald said.

Ultimately, the team’s design could be used on a probe headed for icy outer moons such as Europa and Enceladus to ferret around for indications of sub-surface water and living organisms. (ANI)