Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560872
Funder
Australian Research Council
Funding Amount
$142,138.00
Summary
The Buckland Park Lidar Facility. This project will develop a laser radar (lidar) facility to operate as a test bed for studies in atmospheric physics, space physics, optics and astronomy.
A large aperture Sodium lidar for investigating the middle atmosphere (10-100 km). We will create a world-leading sodium lidar for remote sensing of the mesosphere and lower thermosphere (MLT) regions of the atmosphere, by developing a novel solid-state sodium light source and using the Cangaroo-1 telescope. It will provide the most accurate measurements ever of the temperature profile and wind velocities in the MLT for much needed input into models of the atmosphere. The addition of this capabi ....A large aperture Sodium lidar for investigating the middle atmosphere (10-100 km). We will create a world-leading sodium lidar for remote sensing of the mesosphere and lower thermosphere (MLT) regions of the atmosphere, by developing a novel solid-state sodium light source and using the Cangaroo-1 telescope. It will provide the most accurate measurements ever of the temperature profile and wind velocities in the MLT for much needed input into models of the atmosphere. The addition of this capability to the suite of atmospheric monitoring instruments at the Buckland Park field station will create a major international research facility, unrivalled in the world.Read moreRead less
Measuring boundary layer flows with airborne LIDAR. This project aims to support development of an existing LIDAR system to enable routine airborne measurement of winds and aerosol concentrations in the atmospheric boundary layer. The technical details are innovative such that the system can operate from a small aircraft, and obtain measurements over urban areas, where previously such measurements were unobtainable. This system will provide unique data to help unravel the complex process respon ....Measuring boundary layer flows with airborne LIDAR. This project aims to support development of an existing LIDAR system to enable routine airborne measurement of winds and aerosol concentrations in the atmospheric boundary layer. The technical details are innovative such that the system can operate from a small aircraft, and obtain measurements over urban areas, where previously such measurements were unobtainable. This system will provide unique data to help unravel the complex process responsible for transport and dispersion of pollutants in boundary layers over citiesRead moreRead less