17 July 2018
Innovative cloud profiling radar and next generation infrared calibration sources are two exciting new projects being led by STFC’s RAL Space and which are to receive funding of over £1m from the UK Space Agency. The RAL Space projects are two of seven cutting edge science projects funded following a competition run by the Centre for Earth Observation Instrumentation (CEOI) and extensive peer review.
The cloud radar, being developed by a UK consortium led by RAL Space to improve the accuracy of weather prediction, won a share of the £4.7 million UK Space Agency funding pot to develop highly innovative sensors that could be used to monitor climate change, improve mapping and co-ordinate disaster relief efforts from space.
Called GRaCE, the G-band Radar for Cloud Evaluation, will be able to provide enhanced scientific data that can improve numerical weather forecasting.
Dr Peter Huggard, who leads novel terahertz technology development within RAL Space, said “We are very pleased to have secured this UKSA funding for GRaCE. We have assembled a very strong national team - Thomas Keating Ltd and the Universities of Leicester and St Andrews - to design and build GRaCE. We anticipate that this ground based radar, working at double the frequency of existing space radars, will demonstrate the scientific benefits of the concept. Our ambition is then to take the project to the next stage, building equipment to fly in space which is of benefit to society through improved weather forecasting.”
GRaCE will operate at 200 GHz, a much higher frequency than current spaceborne cloud radars. GRaCE is designed to provide better information on the distribution and size of small water droplets and ice crystals in the atmosphere. It will do this by working on its own, and in concert with other high frequency radars.
Over the next 18 months, team members, Sussex based SME Thomas Keating Ltd., and the Universities of Leicester and St Andrews, under the leadership of STFC RAL Space, will design, build and deploy the GRaCE ground-based demonstrator radar. Field testing will take place alongside other atmospheric radars at the STFC Chilbolton Observatory in Hampshire. To build the instrument, RAL Space will adapt in-house space Schottky diode technology, previously produced for programmes including EUMETSAT/ESA’s MetOp-SG , to provide the necessary high transmitted powers and sensitive receivers for the project.
The data from the instrument will be valuable to meteorological modellers all over the world, providing opportunities to export this innovative new technology for use on the ground, in the air and from space.
The other RAL Space project, for Next Generation Infrared Calibration Sources (NGENIRS), will develop an innovative black-body calibration system that is essential for delivering highly accurate data from infrared sensing space missions which measure land and sea surface temperatures. This project builds on RAL Space’s extensive expertise calibrating sea surface temperature instruments for more than two decades for missions from ERS-1 through to the current Sentinel satellites.
RAL Space is an integral part of the Science and Technology Facilities Council's (STFC) Rutherford Appleton Laboratory (RAL). RAL Space carries out world-class space research and technology development with involvement in over 210 space missions.