- Eddy-resolving Lidar Measurements and Numerical Simulations of the Convective Internal Boundary Layer
- A Nested Micro-Scale Simulation of a Lake Michigan Land-Breeze Front Gijs de Boer,Gregory J.Tripoli,Edwin W.Eloranta
- Ice Crystal Sice Retrievals using High Spectral Resolution Lidar and Millimeter Wave Radar Data Edwin W.Eloranta
- High Spectral Resolution Lidar Observations of Diamond Dust Layers in Eureka, AU: * Bourdages, L
- !#" "$ %&$'(&!0) 21 43 56 773#3 "89@" A0B3#7(C DB4 2CE%&
- An improved model for snowfall measurement using lidar and radar Lidar Backscatter Cross Section ~ number density * Radar Backscatter Cross Section ~ number density * Radar Doppler Velocity ~ f( mass, projected area, air density)
- A High Spectral Resolution Lidar for Operation in the Arctic: A
- Measurements of Backscatter Phase Function and Depolarization in Cirrus Clouds made with the University of Wisconsin High Spectral Resolution Lidar.
- Arctic Mixed-Phase Stratiform Cloud Properties from Multiple Years of Surface-Based Measurements at Two High-Latitude Locations
- "!$#%&('!0)12'3 450678@9AB&37B6 CD'E%FG37H(B3I6P6 QRB 8'3 03 2PS TUV
- Understanding formation and maintenance of mixed-phase
- Instrument Descriptions Wavelength: 532 nm
- Effects of Immersion Freezing on Simulations of Mixed-Phase Stratus
- NUMERICAL SIMULATION OF THE NEUTRAL BOUNDARY LAYER: A COMPARISON OF ENSTROPHY CONSERVING WITH
- Arctic Mixed-Phase Clouds: Observations and
- 6.4 ARCTIC OBSERVATIONS WITH THE UNIVERSITY OF WISCONSIN HIGH SPECTRAL RESOLUTION LIDAR
- THE DESIGN OF A NEW AIRBORNE OF A HIGH SPECTRAL RESOLUTION LIDAR. Igor A Razenkov, Edwin W. Eloranta, James P. Hedrick and Joseph P. Garcia,
- Assumptions for phase separationAssumptions for phase separation -Even Ice Distribution vertically-Even Ice Distribution vertically
- A multi-platform study towards the understanding
- A Potential Role for Immersion Freezing in Arctic Mixed-Phase Stratus Gijs de Boer,Edwin W.Eloranta,Tempei Hashino,and Gregory J.Tripoli
- 1428 VOLUME 131M O N T H L Y W E A T H E R R E V I E W 2003 American Meteorological Society
- Liquid layers were observed in the Mixed-Phase Arctic Cloud Experiment (M-PACE) at temperatures down to 30C.
- Initial Results from an Automated High Spectral
- Particle Size Measurements Using Data from a High Spectral Resolution Lidar and a Millimeter Wavelength Radar
- OBSERVATIONS WITH THE UNIVERSITY OF WISCONSIN ARCTIC HIGH SPECTRAL RESOLUTION LIDAR
- Multi-Year Statistics of Mixed-Phase Arctic Stratus at Barrow and Eureka
- LIDAR OBSERVATIONS AND COMPARISON WITH NUMERICAL SIMULATION OF A LAKE MICHIGAN LAND BREEZE FRONT
- On Immersion Freezing as a Nucleation Mechanism in Mixed-Phase Stratus Gijs de Boer, Tempei Hashino,Gregory J.Tripoli and Edwin W.Eloranta
- Lidar Derived Scattering Gradient Variance UW-NMS Derived Scattering Gradient Variance
- A Possible Role for Immersion Freezing in
- A Numerical Sensitivity Study of Aerosol Influence on Immersion Freezing in Mixed-Phase Stratiform Clouds
- Particle characterization with the combination of cloud radar and lidar data over Eureka, Nunavut. L. Bourdages, T.J. Duck, G. Lesins, J.R. Drummond and E.W. Eloranta.
- A 2year climatology of clouds at Eureka, Canada prepared from High Spectral Resolution lidar data.
- Lidar-Radar Measurements of Snowfall Edwin W. Eloranta--Univ. Of Wisconsin
- Lidar Bacscatter Cross-Section Radar Bacscatter Cross-Section Mixed Phase
- Arctic-Winter Climatology and Radiative Effects of Clouds and Aerosols Based on Lidar and Radar Measurements at PEARL
- AN IMPROVED UNDERSTANDING OF THE LIFECYCLE OF MIXED-PHASE STRATIFORM CLOUDS THROUGH
- Ground-Based Observations of Clouds in the Arctic --
- CLOUD FRACTION STATISTICS DERIVED FROM 2YEARS OF HIGH SPECTRAL RESOLUTION LIDAR DATA ACQUIRED AT EUREKA, CANADA.
- A Possible Role for Immersion Freezing in Mixed-Phase Stratus Clouds Gijs de Boer, Tempei Hashino,Gregory J.Tripoli and Edwin W.Eloranta
- A Comparison of High Spectral Resolution and Raman Lidars O (a work in progress with much left to be done)
- The Design and Construction of an Airborne High Spectral Resolution Lidar.
- Vertical Motion Long-Term Lidar and Radar Observations of Arctic Stratus at Two Locations
- IEEE GEOSCIENCE AND REMOTE SENSING LETTERS, VOL. 5, NO. 2, APRIL 2008 285 Validating Mixed-Phase Cloud Optical Depth
- Introduction Mixed-phase clouds, such as those found in the Arctic
- ARCTIC OBSERVATIONS WITH THE UNIVERSITY OF WISCONSIN HIGH SPECTRAL RESOLUTION LIDAR
- Eureka 2005 OctoberAugust
- Development of Cloud Microphysical Property Retrievals Using the University of Wisconsin Arctic High Spectral Resolution Lidar
- Frequency locking to the center of a 532 nm iodine absorption line by using stimulated Brillouin
- 2005 Fall Meeting Search Results
- A Proposed Study of the Interaction Between Aerosols and Arctic Stratocumulus
- University of Wisconsin High Spectral Lidar operations during MPACE: Examples of AHSRL-MMCR particle size retrievals E.W.Eloranta, I.A.Razenkov, J.P.Garcia, and J.P.Hedrick
- NESTED HIGH RESOLUTION SIMULATION AND LIDAR VALIDATION OF A LAND BREEZE CIRCULATION
- 2.3 SMALL SCALE SIMULATION AND LIDAR VALIDATION OF A SHALLOW LAND BREEZE FRONT
- Introduction As part of the LAKE-ICE experiment the University of Wisconsin Volume
- MEASUREMENTS OF CIRRUS BACKSCATTER PHASE FUNCTIONS
- Lidar multiple scattering models for use in cirrus clouds E. W. Eloranta
- 5 6 7 8 9 10 11 12 13 BackscatterCrossSection(1/(m*str))
- Volume Imaging Lidar Observations Volume Imaging Lidar Observations and Large-eddy simulations of Convective Internal Boundary Layers
- A HIGH SPECTRAL RESOLUTION LIDAR DESIGNED FOR LONG-TERM ARCTIC CLOUD AND HAZE OBSERVATIONS.
- 0.5 m Telescope Computer Adjustable
- A High Spectral Resolution Lidar Designed for Unattended Operation in the Arctic.
- A TECHNIQUE TO MEASURE CIRRUS CLOUD EFFECTIVE PARTICLE SIZE USING A HIGH SPECTRAL RESOLUTION LIDAR
