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Russian Water Sniffer Feeds Curiosity

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A Russian neutron detector on board NASA’s Mars rover Curiosity, designed to search for any water that might be bound into shallow underground minerals along the rover's path, will be activated within three to four days, a Russian scientist said on Monday.

A Russian neutron detector on board NASA’s Mars rover Curiosity, designed to search for any water that might be bound into shallow underground minerals along the rover's path, will be activated within three to four days, a Russian scientist said on Monday.

Curiosity successfully touched down on the Red Planet on Monday morning.

The DAN detector, developed at the Space Research Institute under an agreement between NASA and Federal Space Agency Roscosmos, is Russia’s contribution to the Mars rover, project director Igor Mitrofanov said.

"If we conclude that there is something unusual in the subsurface at a particular spot, we could suggest more analysis of the spot using the capabilities of other instruments," he said.

The Dynamic Albedo of Neutrons instrument, or DAN, will scout for underground clues to a depth of about 50 centimeters.

DAN will bring to the surface of Mars an enhancement of nuclear technology that has already detected Martian water from orbit. By measuring the energies of the neutrons leaking from the ground, DAN can detect the fraction that was slowed in these collisions, and therefore the amount of hydrogen.

The neutron generator is mounted on Curiosity's right hip. A module with two neutron detectors is mounted on the left hip. With pulses lasting about one microsecond and repeated as frequently as 10 times per second, key measurements by the detectors are the flux rate and delay time of moderated neutrons with different energy levels returning from the ground. The generator will be able to emit a total of about 10 million pulses during the mission, with about 10 million neutrons at each pulse, NASA said.

The service camera installed on the $2.5 billion plutonium-powered rover has sent the first photos from the landing site in the Gale Crater, including one showing a wheel of the rover on the surface.

Curiosity, the biggest and the most scientifically complex Mars rover, will gradually turn on its scientific equipment to carry out geological and geo-chemical research, to study the planet’s atmosphere and climate, and to search for water and organic substances. Its findings will help to determine whether Mars was ever a habitable planet and whether it has any suitable places for habitation now.

It is NASA's first Mars landing since the Spirit and Opportunity rovers touched down on the Red Planet in 2004.

 

 

 

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