PB
Member Since 2006
Paul Byrne
Associate Professor of Earth, Environmental, and Planetary Sciences, Washington University in St. Louis
AGU Research
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The Geological History of Enceladus' Cratered Terrains
JOURNAL OF GEOPHYSICAL RESEARCH: PLANETS
14 july 2024
Mallory J. Kinczyk, Paul Byrne, Gerald Patterson

This study presents a comprehensive assessment of the geomorphology, crater distributions, and tectonic structures within Enceladus' cratered terra...

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Amazonian Tectonic Evolution of Ceraunius and Tractus Fossae, Mars, and Implications for Local Magmatic Sources
JOURNAL OF GEOPHYSICAL RESEARCH: PLANETS
04 july 2024
Stephanie Shahrzad, Emma Bramham, Sandra Piazolo, ...

The heavily faulted Martian terrains of Ceraunius Fossae and Tractus Fossae, south of the Alba Mons volcano, have previously only been considered a...

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A Global Survey of Gravitationally Deformed Volcanoes on Venus
JOURNAL OF GEOPHYSICAL RESEARCH: PLANETS
14 february 2024
Rebecca Hahn, Paul Byrne

Gravitational instabilities can develop at volcanoes of any size and in any geological setting and can lead to various types of volcano deformation...

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VERITAS and EnVision: Upcoming radar missions to Venus
RADAR INVESTIGATIONS OF PLANETARY SURFACES AND SUBSURFACES II ORAL
planetary sciences | 15 december 2023
Jennifer L. Whitten, Paul Byrne, Bruce A. Campbell...
The NASA VERITAS and ESA EnVision missions were recently selected to investigate the surface and near-surface of Venus. Both missions have synthetic a...
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The Europan Seafloor is Mechanically Strong and Largely Impervious to Stresses
OCEAN WORLDS AND SEARCH FOR LIFE: HORIZONS IN ICY SATELLITE SCIENCE AT THE LAUNCH OF THE HISTORIC EUROPA CLIPPER MISSION III ORAL
planetary sciences | 14 december 2023
Paul Byrne, Henry Dawson, Christian Klimczak, Paul...
Europa is strongly suspected to have a subsurface ocean, and is a body of major astrobiological interest. Waterrock interactions at the moons seafloor...
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On the detectability of young lava flows on Venus using orbital microwave radiometry
VENUS EXPLORATION: SCIENCE AND TECHNOLOGY FOR EARTH’S HOTTER TWIN III ORAL
planetary sciences | 14 december 2023
Indujaa Ganesh, Ian T. Flynn, Alex Akins, Paul Byr...
Orbital and ground-based observations of the surface and atmosphere of Venus suggest that the planet might be volcanically active. Upcoming missions t...
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Seismic Technology for Artemis Geophysical Station (STAGS): sensors to advance Artemis science objectives
TO THE MOON: A NEW ERA OF LUNAR SCIENCE —FUTURE MISSIONS VIII ORAL
planetary sciences | 13 december 2023
Angela G. Marusiak, Daniella DellaGiustina, Samuel...
The Seismic Technology for Artemis Geophysical Station (STAGS) is a payload concept to deploy short-period seismometers, built by Silicon Audio, at th...
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How Well Might VenSAR Quantify Volcanic Flux on Venus? Lessons from Earth
VENUS EXPLORATION: SCIENCE AND TECHNOLOGY FOR EARTH’S HOTTER TWIN II POSTER
planetary sciences | 13 december 2023
Elizabeth Eiden, Matthew E. Pritchard, Federico Ga...
EnVision and other new missions to Venus will better quantify rates of volcanism by comparing repeat-pass radar imaging (including data from Magellan ...
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