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The Need for Laboratory Measurements and Ab Initio Studies to Aid Understanding of Exoplanetary Atmospheres

Authors :
Fortney, Jonathan J.
Robinson, Tyler D.
Domagal-Goldman, Shawn
Del Genio, Anthony D.
Gordon, Iouli E.
Gharib-Nezhad, Ehsan
Lewis, Nikole
Sousa-Silva, Clara
Airapetian, Vladimir
Drouin, Brian
Hargreaves, Robert J.
Huang, Xinchuan
Karman, Tijs
Ramirez, Ramses M.
Rieker, Gregory B.
Tennyson, Jonathan
Wordsworth, Robin
Yurchenko, Sergei N
Johnson, Alexandria V
Lee, Timothy J.
Dong, Chuanfei
Kane, Stephen
Lopez-Morales, Mercedes
Fauchez, Thomas
Lee, Timothy
Marley, Mark S.
Sung, Keeyoon
Haghighipour, Nader
Robinson, Tyler
Horst, Sarah
Gao, Peter
Kao, Der-you
Dressing, Courtney
Lupu, Roxana
Savin, Daniel Wolf
Fleury, Benjamin
Venot, Olivia
Ascenzi, Daniela
Milam, Stefanie
Linnartz, Harold
Gudipati, Murthy
Gronoff, Guillaume
Salama, Farid
Gavilan, Lisseth
Bouwman, Jordy
Turbet, Martin
Benilan, Yves
Henderson, Bryana
Batalha, Natalie
Jensen-Clem, Rebecca
Lyons, Timothy
Freedman, Richard
Schwieterman, Edward
Goyal, Jayesh
Mancini, Luigi
Irwin, Patrick
Desert, Jean-Michel
Molaverdikhani, Karan
Gizis, John
Taylor, Jake
Lothringer, Joshua
Pierrehumbert, Raymond
Zellem, Robert
Batalha, Natasha
Rugheimer, Sarah
Lustig-Yaeger, Jacob
Hu, Renyu
Kempton, Eliza
Arney, Giada
Line, Mike
Alam, Munazza
Moses, Julianne
Iro, Nicolas
Kreidberg, Laura
Blecic, Jasmina
Louden, Tom
Molliere, Paul
Stevenson, Kevin
Swain, Mark
Bott, Kimberly
Madhusudhan, Nikku
Krissansen-Totton, Joshua
Deming, Drake
Kitiashvili, Irina
Shkolnik, Evgenya
Rustamkulov, Zafar
Rogers, Leslie
Close, Laird
Publication Year :
2019

Abstract

We are now on a clear trajectory for improvements in exoplanet observations that will revolutionize our ability to characterize their atmospheric structure, composition, and circulation, from gas giants to rocky planets. However, exoplanet atmospheric models capable of interpreting the upcoming observations are often limited by insufficiencies in the laboratory and theoretical data that serve as critical inputs to atmospheric physical and chemical tools. Here we provide an up-to-date and condensed description of areas where laboratory and/or ab initio investigations could fill critical gaps in our ability to model exoplanet atmospheric opacities, clouds, and chemistry, building off a larger 2016 white paper, and endorsed by the NAS Exoplanet Science Strategy report. Now is the ideal time for progress in these areas, but this progress requires better access to, understanding of, and training in the production of spectroscopic data as well as a better insight into chemical reaction kinetics both thermal and radiation-induced at a broad range of temperatures. Given that most published efforts have emphasized relatively Earth-like conditions, we can expect significant and enlightening discoveries as emphasis moves to the exotic atmospheres of exoplanets.<br />Comment: Submitted as an Astro2020 Science White Paper

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.1905.07064
Document Type :
Working Paper