Two coherent Doppler lidars were deployed during the Terrain-induced Rotor EXperiment (T-REX). Coplanar Range Height Indicator (RHI) scans by the lidars (along the same azimuthal angle) allowed retrieval of two-dimensional velocity vectors on a vertical/cross-barrier plane using the least squares method. Vortices are shown to evolve and advect in the flow field, allowing analysis of their behavior in the mountain-wave-boundary layer system. The locations, magnitudes, and evolution of the vortices can be studied through calculated fields of velocity, vorticity, streamlines, and swirl. Two classes of vortical motions are identified: rotors and sub-rotors, which differ in scale and behavior. The level of coordination of the two lidars and the nature of the output (i.e., in range-gates) creates inherent restrictions on the spatial and temporal resolution of retrieved fields.
Revised: September 3, 2010 |
Published: March 1, 2010
Citation
Hill M., R. Calhoun, H.S. Fernando, A. Wieser, A. Wieser, A. Dornbrack, and M. Weissmann, et al. 2010.Coplanar Doppler Lidar Retrieval of Rotors from T-REX.Journal of the Atmospheric Sciences 67, no. 3:713-729.PNNL-SA-59795.doi:10.1175/2009JAS3016.1