J
J. Brant Dodson
Researcher at Langley Research Center
Publications - 7
Citations - 41
J. Brant Dodson is an academic researcher from Langley Research Center. The author has contributed to research in topics: Convective instability & Diurnal cycle. The author has an hindex of 3, co-authored 7 publications receiving 24 citations. Previous affiliations of J. Brant Dodson include Universities Space Research Association.
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Journal ArticleDOI
Eclipse across America: Citizen Science Observations of the 21 August 2017 Total Solar Eclipse
J. Brant Dodson,Marilé Colón Robles,Jessica Taylor,Cayley Cruickshank DeFontes,Kristen L. Weaver +4 more
TL;DR: In 2017, North America witnessed a total solar eclipse, with the path of totality passing across the United States from coast to coast, and the major public interest in the event insp...
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Microphysical Variability of Amazonian Deep Convective Cores Observed by CloudSat and Simulated by a Multi-Scale Modeling Framework
TL;DR: Simulating realistic DCC vertical structure and its variability requires accurate representation of ice microphysics, in particular the hail/graupel modes, though this alone is insufficient.
Journal ArticleDOI
Clouds around the World: How a Simple Citizen Science Data Challenge Became a Worldwide Success
Marilé Colón Robles,Helen M. Amos,J. Brant Dodson,Jeffrey Bouwman,Tina M. Rogerson,Annette Bombosch,Lauren Farmer,Autumn Burdick,Jessica Taylor,Lin H. Chambers +9 more
TL;DR: The GLOBE Spring Cloud Challenge, a citizen science engagement event, resulted in a global dataset of 55,000+ cloud observations with coincident-satellite data by volunteers across all continents.
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Sensitivity of Amazonian TOA flux diurnal cycle composite monthly variability to choice of reanalysis.
TL;DR: Overall, clear‐sky radiative effects have a dominant role in radiative diurnal cycle variability during the dry season, and while there is general agreement between the different reanalysis‐based results when examining the full data time domain, there are significant disagreements when the data are divided into wet and dry seasons.
Journal ArticleDOI
Evaluation of simulated cloud liquid water in low clouds over the Beaufort Sea in the Arctic System Reanalysis using ARISE airborne in situ observations
J. Brant Dodson,Patrick C. Taylor,Richard H. Moore,David H. Bromwich,Keith M. Hines,K. L. Thornhill,Chelsea A. Corr,Bruce E. Anderson,Edward L. Winstead,Joseph Ryan Bennett +9 more
TL;DR: This article analyzed the differences between the Arctic System Reanalysis version 2 (ASR) and data taken during the September 2014 Arctic Radiation-IceBridge Sea and Ice Experiment (ARISE) airborne campaign conducted over the Beaufort Sea.