A new radar for integrated atmospheric science in the southern hemisphere.
Lead Research Organisation:
University of Leicester
Department Name: Physics and Astronomy
Abstract
The Earth's atmosphere is a complex dynamical system involving interactions from local through regional to planetary scales and from the ground to its outer limits in Space. In particular, it is becoming increasingly apparent that the uppermost layers of the atmosphere (mesosphere, thermosphere, ionosphere, and magnetosphere/exosphere) may have significant influences on the lower atmosphere (stratosphere and troposphere). For example, work at BAS and Leicester University has shown influences on the lower atmosphere associated with solar heating above 100 km, geomagnetic activity arising from electrical currents in the ionosphere, and energetic particles from the magnetosphere. Such research is addressing the report of the Intergovernmental Panel on Climate Change (IPCC) which stated that the level of scientific understanding of the solar contribution is 'very low' and has significant uncertainties. Recognising the importance of the upper atmosphere, the U.K. Meteorological Office has recently raised the upper limit of its operational forecasting model from 37 to 63 km altitude with a consequent increase in forecasting skill and the next model due this year will have a ceiling at 80km. The Super Dual Auroral Radar Network (SuperDARN) is a powerful tool for measuring convection and waves in the mesosphere, thermosphere and ionosphere on local, regional and planetary scales. It has greatly advanced our understanding of the upper atmosphere and Space, and the U.K., despite a relatively small investment in SuperDARN, has dominated its exploitation. Initially, SuperDARN was concentrated at polar latitudes but recently it has begun to expand its coverage to lower temperate latitudes to form a sub-network known as StormDARN. This proposal highlights a time-limited opportunity to build a StormDARN radar on the Falkland Islands to address three specific challenges of integrated atmospheric science - the structure and influences of atmospheric gravity waves, atmospheric tides, and charge particle precipitation from the outer radiation belt.
Organisations
Publications
Grocott A
(2013)
Characteristics of medium-scale traveling ionospheric disturbances observed near the Antarctic Peninsula by HF radar
in Journal of Geophysical Research: Space Physics
Grocott A
(2011)
Dynamic subauroral ionospheric electric fields observed by the Falkland Islands radar during the course of a geomagnetic storm RADAR OBSERVATIONS OF A SUBAURORAL ION DRIFT
in Journal of Geophysical Research: Space Physics
Grocott A
(2012)
A quantitative deconstruction of the morphology of high-latitude ionospheric convection
in Journal of Geophysical Research: Space Physics
Grocott A
(2014)
The influence of IMF clock angle timescales on the morphology of ionospheric convection
in Journal of Geophysical Research: Space Physics
Grocott A.
(2012)
Characteristics of daytime mid-latitude travelling ionospheric disturbances observed over the Antarctic peninsular with HF radar
in AGU Fall Meeting Abstracts
Hibbins R
(2011)
Winds and tides in the mid-latitude Southern Hemisphere upper mesosphere recorded with the Falkland Islands SuperDARN radar
in Annales Geophysicae
Honkonen I
(2013)
On the performance of global magnetohydrodynamic models in the Earth's magnetosphere ON GLOBAL MHD PERFORMANCE AT EARTH
in Space Weather
Juusola L
(2014)
Interplanetary magnetic field control of the ionospheric field-aligned current and convection distributions
in Journal of Geophysical Research: Space Physics
Kunduri B
(2012)
An examination of inter-hemispheric conjugacy in a subauroral polarization stream CONJUGACY OF SAPS
in Journal of Geophysical Research: Space Physics
Milan S
(2013)
Traveling ionospheric disturbances in the Weddell Sea Anomaly associated with geomagnetic activity TIDs IN THE WEDDELL SEA ANOMALY
in Journal of Geophysical Research: Space Physics
Description | We have studied winds, tides, and waves in the upper atmosphere over the Antarctic Peninsula, as well as electrodynamic coupling between the ionized upper atmosphere and the magnetosphere which produces energy deposition in the atmosphere and may affect climate. We have developed a fuller understanding of all these processes. |
Exploitation Route | Our work provides a better characterization of ionospheric disturbances in the Southern Hemisphere which will help with mitigation of some Space Weather impacts on communications and navigation. |
Sectors | Aerospace, Defence and Marine,Environment |
Description | These findings provide an improved understanding of winds, tides, and atmospheric waves in the Southern Ocean. Techniques developed to study waves in our work has been used by other researchers in their work. |
First Year Of Impact | 2010 |
Sector | Environment |