Highly Volcanic Exoplanets, Lava Worlds, and Magma Ocean Worlds: An Emerging Class of Dynamic Exoplanets of Significant Scientific Priority
Wade G. Henning (Lead / Corresponding author), Joseph P. Renaud, Prabal Saxena, Patrick L. Whelley, Avi M. Mandell, Soko Matsumura, Lori S. Glaze, Terry A. Hurford, Timothy A. Livengood, Christopher W. Hamilton, Michael Efroimsky, Valeri V. Makarov, Ciprian T. Berghea, Scott D. Guzewich, Kostas Tsigaridis, Giada N. Arney, Daniel R. Cremons, Stephen R. Kane, Jacob E. Bleacher, Ravi K. KopparapuErika Kohler, Yuni Lee, Andrew Rushby, Weijia Kuang, Rory Barnes, Jacob A. Richardson, Peter Driscoll, Nicholas C. Schmerr, Anthony D. Del Genio, Ashley Gerard Davies, Lisa Kaltenegger, Linda Elkins-Tanton, Yuka Fujii, Laura Schaefer, Sukrit Ranjan, Elisa Quintana, Thomas S. Barclay, Keiko Hamano, Noah E. Petro, Jordan D. Kendall, Eric D. Lopez, Dimitar D. Sasselov
Research output: Working paper/Preprint › Preprint
56Downloads
(Pure)
Fingerprint
Dive into the research topics of 'Highly Volcanic Exoplanets, Lava Worlds, and Magma Ocean Worlds: An Emerging Class of Dynamic Exoplanets of Significant Scientific Priority'. Together they form a unique fingerprint.