Earth-like lithospheric thickness and heat flow on Venus consistent with active riftingS. E. Smrekar, J. G. O’Rourke, Colby Ostberg|Nature Geoscience|2022Cited by 56
Venus Evolution Through Time: Key Science Questions, Selected Mission Concepts and Future InvestigationsThomas Widemann, Nilesh M. Desai, J. L. Whitten et al.|Space Science Reviews|2023Cited by 50
A Global Survey of Lithospheric Flexure at Steep‐Sided Domical Volcanoes on Venus Reveals Intermediate Elastic ThicknessesM. E. Borrelli, Colby Ostberg, J. G. O’Rourke et al.|Journal of Geophysical Research Planets|2021Cited by 28
A Global Survey of Lithospheric Flexure at Steep-Sided Domical Volcanoes on Venus Reveals Intermediate Elastic ThicknessesM. E. Borrelli, Colby Ostberg, J. G. O’Rourke et al.|Unknown|2020Cited by 2
Author Correction: Earth-like lithospheric thickness and heat flow on Venus consistent with active riftingS. E. Smrekar, J. G. O’Rourke, Colby Ostberg|Nature Geoscience|2024Cited by 2