Friday, October 9, 2009

SMOS launch nearing: Media Day at ESA/ESRIN

On Wednesday 21 October, media representatives will have the opportunity to attend an in-depth briefing at ESA’s ESRIN establishment in Frascati near Rome on the upcoming mission of SMOS, ESA’s Soil Moisture and Ocean Salinity satellite scheduled for a Rockot launch from Plesetsk, Russia on 2 November at 02:50 CET.

ESA’s Director of Earth Observation Programmes Volker Liebig, together with other European experts from participating space agencies and industry, will present the SMOS mission and its scientific objectives and will be available for interviews.
Following the successful launch of GOCE on 17 March, SMOS will be the European Space Agency’s second Earth Explorer satellite under its Living Planet Programme to go into orbit. After the successful launch in 2002 of Envisat, the largest Earth observation satellite ever built, ESA started developing the Earth Explorer series of missions to provide a moderate-cost, fast response to important scientific challenges using cutting-edge technologies.

SMOS will primarily observe soil moisture over the Earth's landmasses and salinity over the oceans. Soil-moisture data are urgently required for hydrological studies; ocean-salinity data are vital for improving our understanding of ocean circulation patterns. Data from SMOS will lead to a better understanding of the Earth's water cycle and to better weather and extreme-event forecasting and will contribute to seasonal-climate forecasting. As a secondary objective, SMOS will also provide observations over snow and ice regions, contributing to study of the cryosphere.

SMOS measurement principle
One innovative feature of this mission is that it will demonstrate a new measuring technique adopting a completely different approach to observing the Earth from space. The truly novel MIRAS payload instrument which has been developed is capable of observing both soil moisture and ocean salinity by capturing images of microwave radiation emitted from the Earth’s surface around a frequency of 1.4 GHz (L-band). SMOS will carry the first ever polar-orbiting, space-borne, 2D interferometric radiometer.

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