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RISHow Does Vertical Wind Shear Influence Entrainment in Squall Lines?
Publisher: American Meteorological Society
Generalized lapse rate formulas for use in entraining CAPE calculations
Publisher: American Meteorological Society
Evaluating the Effective Inflow Layer of Simulated Supercell Updrafts
Publisher: American Meteorological Society
How Does Vertical Wind Shear Influence Updraft Characteristics and Hydrometeor Distributions in Supercell Thunderstorms?
Publisher: American Meteorological Society
Observations of Misovortices within a Long-Lake-Axis-Parallel Lake-Effect Snowband during the OWLeS Project
Publisher: American Meteorological Society
Abstract: AbstractRecent lake-effect snow field projects in the eastern Great Lakes region have revealed the presence of misovortices with diameters between 40 and 4000 m along cyclonic horizontal shear zones within long-lake-axis-parallel ...
The influence of terrain on the convective environment and associated convective morphology from an idealized modeling prospective
Publisher: American Meteorological Society
Abstract: Orographic deep convection (DC) initiation and rapid evolution from supercells to mesoscale convective systems (MCS) are common near the Sierras de Cόrdoba, Argentina, which was the focal point of the Remote Sensing of ...
A Formula for the Maximum Vertical Velocity in Supercell Updrafts
Publisher: American Meteorological Society
Abstract: In supercell environments, previous authors have shown strong connections between the vertical wind shear magnitude, updraft width, and entrainment. Based on these results, it is hypothesized that the influences of ...
Convective Storm Life Cycle and Environments near the Sierras de Córdoba, Argentina
Publisher: American Meteorological Society
Abstract: AbstractSatellite observations have revealed that some of the world?s most intense deep convective storms occur near the Sierras de Córdoba, Argentina, South America. A C-band, dual-polarization Doppler weather radar ...
Near-Cloud Atmospheric Ingredients for Deep Convection Initiation
Publisher: American Meteorological Society
Near-Cloud Atmospheric Ingredients for Deep Convection Initiation
Publisher: American Meteorological Society