Yvette Richardson
#104,975
Most Influential Person Now
American meteorologist
Yvette Richardson's AcademicInfluence.com Rankings
Yvette Richardsonearth-sciences Degrees
Earth Sciences
#1008
World Rank
#1543
Historical Rank
Meteorology
#94
World Rank
#145
Historical Rank
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Earth Sciences
Yvette Richardson's Degrees
- PhD Meteorology Pennsylvania State University
- Masters Meteorology Pennsylvania State University
- Bachelors Meteorology Pennsylvania State University
Why Is Yvette Richardson Influential?
(Suggest an Edit or Addition)According to Wikipedia, Yvette Richardson is an American meteorologist with substantial contributions on tornado dynamics, tornadogenesis, the environments of tornadoes, supercells, and severe convection, and radar observations of these. She was a principal investigator of VORTEX2.
Yvette Richardson's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- Mesoscale Meteorology in Midlatitudes (2010) (486)
- The Second Verification of the Origins of Rotation in Tornadoes Experiment: VORTEX2 (2012) (156)
- The Influence of Environmental Low-Level Shear and Cold Pools on Tornadogenesis: Insights from Idealized Simulations (2014) (126)
- Tornadogenesis: Our current understanding, forecasting considerations, and questions to guide future research (2009) (114)
- Dual-Doppler and Single-Doppler Analysis of a Tornadic Storm Undergoing Mergers and Repeated Tornadogenesis (2007) (110)
- Vortex Lines within Low-Level Mesocyclones Obtained from Pseudo-Dual-Doppler Radar Observations (2008) (105)
- Tornado maintenance investigated with high-resolution Dual-Doppler and EnKF analysis (2012) (98)
- Radar Observations of the 3 May 1999 Oklahoma City Tornado (2002) (96)
- Genesis of the Goshen County, Wyoming, Tornado on 5 June 2009 during VORTEX2 (2013) (94)
- The Pretornadic Phase of the Goshen County, Wyoming, Supercell of 5 June 2009 Intercepted by VORTEX2. Part II: Intensification of Low-Level Rotation (2012) (84)
- Low-Level Winds in Tornadoes and Potential Catastrophic Tornado Impacts in Urban Areas (2007) (79)
- The Pretornadic Phase of the Goshen County, Wyoming, Supercell of 5 June 2009 Intercepted by VORTEX2. Part I: Evolution of Kinematic and Surface Thermodynamic Fields (2012) (77)
- Single- and Dual-Doppler Analysis of a Tornadic Vortex and Surrounding Storm-Scale Flow in the Crowell, Texas, Supercell of 30 April 2000 (2008) (74)
- Multipass Objective Analyses of Doppler Radar Data (2008) (71)
- Dual-Doppler Analysis of Winds and Vorticity Budget Terms near a Tornado (2007) (56)
- Kinematic Observations of Misocyclones along Boundaries during IHOP (2007) (55)
- Finescale Single- and Dual-Doppler Analysis of Tornado Intensification, Maintenance, and Dissipation in the Orleans, Nebraska, Supercell (2010) (55)
- The Dryline on 22 May 2002 during IHOP: Ground-Radar and In Situ Data Analyses of the Dryline and Boundary Layer Evolution (2007) (54)
- The Influence of Horizontal Environmental Variability on Numerically Simulated Convective Storms. Part I: Variations in Vertical Shear (2007) (52)
- Investigation of Near-Storm Environments for Tornado Events and Warnings (2016) (51)
- VORTEX2 Observations of a Low-Level Mesocyclone with Multiple Internal Rear-Flank Downdraft Momentum Surges in the 18 May 2010 Dumas, Texas, Supercell* (2014) (48)
- Relationship between a Weakening Cold Front, Misocyclones, and Cloud Development on 10 June 2002 during IHOP (2006) (43)
- The Characteristics of Numerically Simulated Supercell Storms Situated over Statically Stable Boundary Layers (2011) (40)
- An Investigation of the Goshen County, Wyoming, Tornadic Supercell of 5 June 2009 Using EnKF Assimilation of Mobile Mesonet and Radar Observations Collected during VORTEX2. Part I: Experiment Design and Verification of the EnKF Analyses (2014) (38)
- Descending Reflectivity Cores in Supercell Thunderstorms Observed by Mobile Radars and in a High-Resolution Numerical Simulation (2009) (35)
- The “Triple Point” on 24 May 2002 during IHOP. Part II: Ground-Radar and In Situ Boundary Layer Analysis of Cumulus Development and Convection Initiation (2007) (31)
- Observations of Vertical Wind Shear Heterogeneity in Convective Boundary Layers (2007) (30)
- Radar in Atmospheric Sciences and Related Research: Current Systems, Emerging Technology, and Future Needs (2014) (27)
- Observations of the Evolution of the Nocturnal and Convective Boundary Layers and the Structure of Open-Celled Convection on 14 June 2002 (2010) (27)
- Tornadoes in the Central United States and the “Clash of Air Masses” (2014) (26)
- What we know and don’t know about tornado formation (2014) (25)
- Characteristics of the Wind Field in Three Nontornadic Low-Level Mesocyclones Observed by the Doppler On Wheels Radars (2011) (25)
- Polarimetric and Dual-Doppler Radar Observations of the Lipscomb County, Texas, Supercell Thunderstorm on 23 May 2002 (2009) (24)
- The Influence of Horizontal Variations in Vertical Shear and Low-Level Moisture on Numerically Simulated Convective Storms (1999) (23)
- Characteristics of Tornado Events and Warnings in the Southeastern United States (2019) (22)
- A Comparison of Near-Surface Buoyancy and Baroclinity across Three VORTEX2 Supercell Intercepts (2015) (21)
- On the Classification of Vertical Wind Shear as Directional Shear versus Speed Shear (2006) (21)
- Simulation of Dryline Misovortex Dynamics and Cumulus Formation (2012) (20)
- Comparison of the Tornadic and Nontornadic Supercells Intercepted by VORTEX2 on 10 June 2010 (2014) (20)
- The origins of vortex sheets in a simulated supercell thunderstorm (2014) (20)
- Near-Storm Environments of Outbreak and Isolated Tornadoes (2018) (18)
- Self-Organizing Maps for the Investigation of Tornadic Near-Storm Environments (2017) (17)
- An Investigation of the Goshen County, Wyoming, Tornadic Supercell of 5 June 2009 Using EnKF Assimilation of Mobile Mesonet and Radar Observations Collected during VORTEX2. Part II: Mesocyclone-Scale Processes Affecting Tornado Formation, Maintenance, and Decay (2016) (17)
- Supercell Low-Level Mesocyclones in Simulations with a Sheared Convective Boundary Layer (2015) (17)
- Properties of a Simulated Convective Boundary Layer in an Idealized Supercell Thunderstorm Environment (2014) (15)
- Large sensitivity of near-surface vertical vorticity development to heat sink location in idealized simulations of supercell-like storms (2017) (13)
- Organization of Isolated Convection (2010) (13)
- A: Radar and Its Applications (2010) (12)
- Long-Term Morphological Changes in Simulated Supercells Following Mergers with Nascent Supercells in Directionally Varying Shear (2016) (12)
- Resonance Scattering Effects in Wet Hail Observed with a Dual-X-Band-Frequency, Dual-Polarization Doppler on Wheels Radar (2018) (10)
- Aboveground Thermodynamic Observations in Convective Storms from Balloonborne Probes Acting as Pseudo-Lagrangian Drifters (2017) (9)
- Tornadogenesis in the 12 May 2010 Supercell Thunderstorm Intercepted by VORTEX2 near Clinton, Oklahoma (2018) (9)
- 12.3 OBSERVATIONS OF THE FORMATION OF LOW-LEVEL ROTATION: THE 5 JUNE 2001 SUMNER COUNTY, KANSAS TORNADO (2002) (8)
- Comment on “Why do tornados and hailstorms rest on weekends?” by D. Rosenfeld and T. Bell (2013) (8)
- Mesoscale Gravity Waves (2010) (7)
- P 3 C . 12 A SOLAR ALIGNMENT TECHNIQUE FOR DETERMINING MOBILE RADAR POINTING ANGLES (2003) (6)
- Tornado maintenance and demise in the Goshen County, Wyoming supercell of 5 June 2009 intercepted by VORTEX2 (2012) (6)
- Hazards Associated with Deep Moist Convection (2010) (5)
- Mountain Waves and Downslope Windstorms (2010) (4)
- Simultaneous Dual-Doppler and Mobile Mesonet Observations of Streamwise Vorticity Currents in Three Supercells (2020) (3)
- Thermally Forced Winds in Mountainous Terrain (2010) (3)
- PRELIMINARY HIGH-RESOLUTION DUAL-DOPPLER ANALYSES OF TWO TORNADIC THUNDERSTORMS (2001) (3)
- Processes Preventing the Development of a Significant Tornado in a Colorado Supercell on 26 May 2010 (2020) (3)
- How to Make a Tornado (2013) (3)
- Blocking of the Wind by Terrain (2010) (2)
- COMPARISON OF THE TORNADIC AND NONTORNADIC SUPERCELLS INTERCEPTED BY VORTEX 2 ON 10 JUNE (2014) (2)
- Mesoscale Convective Systems (2010) (2)
- The Goshen County, Wyoming, supercell of 5 June 2009 intercepted by VORTEX2: Tornado dissipation phase (2010) (2)
- What is the Mesoscale (2010) (2)
- 12.6 THE STRUCTURE AND EVOLUTION OF HOOK ECHOES DURING TORNADOGENESIS AS REVEALED BY HIGH RESOLUTION RADAR DATA (2002) (2)
- Air Mass Boundaries (2010) (2)
- Processes Associated with Convection Initiation in the North American Mesoscale Forecast System, Version 3 (NAMv3) (2019) (1)
- How the Environmental Lifting Condensation Level Affects the Sensitivity of Simulated Convective Storm Cold Pools to the Microphysics Parameterization (2022) (1)
- The Boundary Layer (2010) (1)
- Objective Analyses of Doppler Radar Data (2008) (1)
- PRELIMINARY INVESTIGATION OF TORNADO WARNING SKILL BY ENVIRONMENT (2012) (1)
- 11A.2 A MULTI-DOPPLER ANALYSIS OF CONVECTIVE INITIATION ON 10 JUNE 2002 DURING IHOP_2002 (2003) (1)
- Three-Dimensional Thermodynamic Observations in Supercell Thunderstorms from Swarms of Balloon-Borne Sondes (2022) (1)
- 16A.3 HIGH RESOLUTION OBSERVATIONS OF A COLD FRONT ON 10 JUNE 2002 (2004) (0)
- Examining Storm Evolution Within Idealized Heterogeneous Environments (2016) (0)
- Observations of Severe Storm Cold Pools and Environments (Invited Presentation) (2017) (0)
- NOTES AND CORRESPONDENCE Multipass Objective Analyses of Doppler Radar Data (2008) (0)
- ERAD 2010-THE SIXTH EUROPEAN CONFERENCE ON RADAR IN METEOROLOGY AND HYDROLOGY VORTEX2: The Verification of the Origins of Rotation in Tornadoes Experiment (2010) (0)
- Multiple-doppler observations of a nontornadic supercell on 23 May 2002 using ground-based mobile radars (2006) (0)
- Exploring Tornado Maintenance with Observations and Idealized Simulations (2014) (0)
- Basic Equations and Tools (2010) (0)
- P6.7 The Goshen County, Wyoming, supercell of 5 June 2009 intercepted by VORTEX2: Pretornadic phase (2010) (0)
- 646 SELF-ORGANIZING MAPS IN THE NEAR-STORM ENVIRONMENT : TOWARD IMPROVING TORNADO FORECASTING (2016) (0)
- 7 Radar Reflectivity “ Blobs ” Observed by the Doppler on Wheels (2006) (0)
- Physical Understanding Necessary for Improving Tornado Forecasts and Warnings (2013) (0)
- Should Reversible Convective Inhibition be Used when Determining the Inflow Layer of a Convective Storm? (2021) (0)
- Potential pitfalls in mobile dual-Doppler analyses of complex severe storm wind fields (2010) (0)
- Data and analysis code for the 26 May 2010 supercell intercepted by VORTEX2 near Prospect Valley, Colorado (2020) (0)
- Comments on “Observations of Wall Cloud Formation in Supercell Thunderstorms during VORTEX2” (2015) (0)
- Observations from VORTEX2: The dissipation phase of the Goshen County, Wyoming tornado (05 June 2009) (2011) (0)
- High-resolution observations of cyclic tornadogenesis on 12 May 2004 near Attica, KS (2008) (0)
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