Exoplanets and Stellar Physics

Exploring the atmosphere of Neoproterozoic Earth: The effect of O2 on haze formation and composition

Astrophysical Journal American Astronomical Society 858:2 (2018) 119

Authors:

S Hörst, C He, AM Jellinek, Raymond Pierrehumbert, MA Tolbert

Abstract:

Previous studies of haze formation in the atmosphere of the early Earth have focused on N2/CO2/CH4 atmospheres. Here, we experimentally investigate the effect of O2 on the formation and composition of aerosols to improve our understanding of haze formation on the Neoproterozoic Earth. We obtained in situ size, particle density, and composition measurements of aerosol particles produced from N2/CO2/CH4/O2 gas mixtures subjected to FUV radiation (115–400 nm) for a range of initial CO2/CH4/O2 mixing ratios (O2 ranging from 2 ppm to 0.2%). At the lowest O2 concentration (2 ppm), the addition increased particle production for all but one gas mixture. At higher oxygen concentrations (20 ppm and greater), particles are still produced, but the addition of O2 decreases the production rate. Both the particle size and number density decrease with increasing O2, indicating that O2 affects particle nucleation and growth. The particle density increases with increasing O2. The addition of CO2 and O2 not only increases the amount of oxygen in the aerosol, but it also increases the degree of nitrogen incorporation. In particular, the addition of O2 results in the formation of nitrate-bearing molecules. The fact that the presence of oxygen-bearing molecules increases the efficiency of nitrogen fixation has implications for the role of haze as a source of molecules required for the origin and evolution of life. The composition changes also likely affect the absorption and scattering behavior of these particles but optical property measurements are required to fully understand the implications for the effect on the planetary radiative energy balance and climate.

A Framework for Prioritizing the TESS Planetary Candidates Most Amenable to Atmospheric Characterization

(2018)

Authors:

Eliza M-R Kempton, Jacob L Bean, Dana R Louie, Drake Deming, Daniel DB Koll, Megan Mansfield, Jessie L Christiansen, Mercedes Lopez-Morales, Mark R Swain, Robert T Zellem, Sarah Ballard, Thomas Barclay, Joanna K Barstow, Natasha E Batalha, Thomas G Beatty, Zach Berta-Thompson, Jayne Birkby, Lars A Buchhave, David Charbonneau, Nicolas B Cowan, Ian Crossfield, Miguel de Val-Borro, Rene Doyon, Diana Dragomir, Eric Gaidos, Kevin Heng, Renyu Hu, Stephen R Kane, Laura Kreidberg, Matthias Mallonn, Caroline V Morley, Norio Narita, Valerio Nascimbeni, Enric Palle, Elisa V Quintana, Emily Rauscher, Sara Seager, Evgenya L Shkolnik, David K Sing, Alessandro Sozzetti, Keivan G Stassun, Jeff A Valenti, Carolina von Essen

A universal spin-mass relation for brown dwarfs and planets

(2018)

Authors:

Aleks Scholz, Keavin Moore, Ray Jayawardhana, Suzanne Aigrain, Dawn Peterson, Beate Stelzer

K2-139 b: a low-mass warm Jupiter on a 29-d orbit transiting an active K0 V star

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 475:2 (2018) 1765-1776

Authors:

O Barragán, D Gandolfi, AMS Smith, HJ Deeg, MCV Fridlund, CM Persson, P Donati, M Endl, Sz Csizmadia, S Grziwa, D Nespral, AP Hatzes, WD Cochran, L Fossati, SS Brems, J Cabrera, F Cusano, Ph Eigmüller, C Eiroa, A Erikson, E Guenther, J Korth, D Lorenzo-Oliveira, L Mancini, M Pätzold, J Prieto-Arranz, H Rauer, I Rebollido, J Saario, OV Zakhozhay

K2-141 b

Astronomy & Astrophysics EDP Sciences 612 (2018) a95

Authors:

O Barragán, D Gandolfi, F Dai, J Livingston, CM Persson, T Hirano, N Narita, Sz Csizmadia, JN Winn, D Nespral, J Prieto-Arranz, AMS Smith, G Nowak, S Albrecht, G Antoniciello, A Bo Justesen, J Cabrera, WD Cochran, H Deeg, Ph Eigmuller, M Endl, A Erikson, M Fridlund, A Fukui, S Grziwa, E Guenther, AP Hatzes, D Hidalgo, MC Johnson, J Korth, E Palle, M Patzold, H Rauer, Y Tanaka, V Van Eylen