Vaughan, Ontario – Optech lidar technology has detected snow on Mars. The discovery was made by the Optech-designed lidar system aboard NASA’s Phoenix Mars Lander, which landed near the Martian North Pole on May 25th, 2008 to search for water and environmental habitats that could harbour life. The snow was detected from clouds about 4 kilometers above the spacecraft’s landing site, and data shows the snow vaporizing before reaching the ground. Spacecraft soil experiments have also provided evidence of past interaction between minerals and liquid water, processes that occur on Earth.
"The clouds are composed of ice crystals, and some of the crystals are large enough to fall through the atmosphere," said Dr. Jim Whiteway, York University’s lead scientist for the Meteorological Station on Phoenix. "So snow is falling from the clouds and we are going to be watching very closely over the next month for evidence that the snow is actually landing on the surface. This is a very important factor in the hydrological cycle on Mars, with the exchange of water between the surface and the atmosphere. Nothing like this view has ever been seen on Mars," Dr. Whiteway added.
Optech lidar technology is at the heart of Canada’s contribution to the Phoenix mission – a meteorological weather station that has helped accurately model Mars’s climate and predict future weather processes. The Canadian Space Agency funded the contribution of the meteorological (MET) package to NASA, which was designed and built by Optech and MDA Space Missions with input from Canadian and US scientists. The Phoenix lidar bounces laser pulses off passing clouds and atmospheric dust overhead to determine their composition, movement and size.
"It’s a very Canadian discovery and a very proud moment for Optech," said Dr. Allan Carswell, founder and chairman of Optech, and professor emeritus at York University. "Optech pioneered atmospheric lidar technology and we’re very happy it’s being put to valuable use on more than one planet.”
Dr. Carswell was the original principal investigator for the Canadian MET and continues as a co-investigator on the Phoenix Science team. The Phoenix mission is led by the University of Arizona under the leadership of Dr. Peter Smith. Project management of the mission is led by NASA’s Jet Propulsion Laboratory, Pasadena, California. Spacecraft development was by Lockheed Martin Space Systems, Denver.
By scanning and probing the Martian polar sky with lidar for the first time in history, scientists are seeing a variety of atmospheric activity in great detail, such as ice and dust clouds, ground fog, and even some dust devils and sand storms that fly across the landing site. To be able to pierce through most of the thin atmosphere, the laser is fixed in an upward-pointing orientation and works at two different wavelengths so that it can give accurate measurements of cloud height to within 10 meters. Though working only on a power equivalent to a 30-watt light bulb, the MET lidar has provided new information on altitudes up to 20 kilometers in the Martian atmosphere.
“The Phoenix lidar has become part of Optech’s remarkable history as a technology pioneer,” said Dr. Robert Richards, Director of Optech Space Technology. “Optech space activities help drive innovation into the company’s products here on Earth.”
The Phoenix mission continues to reveal new secrets about Mars and its environmental processes, including proving the existence of frozen surface water and now snow on the red planet.
Information about the Phoenix MET station and lidar is available at the Canadian Space Agency’s website: http://www.space.gc.ca/asc/eng/exploration/phoenix_lidar.asp
More information about the Phoenix Mars mission is available at the NASA/JPL website: http://www.jpl.nasa.gov/news/phoenix
Optech is the world leader in the development, manufacture and support of advanced laser-based survey instruments. We offer client-driven lidar solutions in airborne terrestrial mapping, airborne laser bathymetry, laser imaging, mine cavity monitoring and industrial process control, as well as space-qualified sensors for orbital operations and planetary exploration.
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