How Hospitable Are Space Weather Affected Habitable Zones? The Role of Ion Escape
暂无分享,去创建一个
William C. Danchi | Michael W. Liemohn | Alex Glocer | George V. Khazanov | Jan J. Sojka | K. France | J. Sojka | M. Liemohn | A. Glocer | W. Danchi | R. Loyd | G. Khazanov | V. Airapetian | Vladimir Airapetian | Robert O Parke Loyd | W. Danchi
[1] W.K. (Bill) Peterson,et al. The polar wind: Recent observations , 2007 .
[2] J. Sojka,et al. Behavior of the ionosphere and thermosphere subject to extreme solar cycle conditions , 2005 .
[3] U. Christensen,et al. Scaling properties of convection-driven dynamos in rotating spherical shells and application to planetary magnetic fields , 2006 .
[4] R. P. Singhal,et al. Electron distribution function formation in regions of diffuse aurora , 2015 .
[5] T. Nygrén,et al. Solar wind effect on Joule heating in the high‐latitude ionosphere , 2014 .
[6] M. Mlynczak,et al. On the relationship of Joule heating and nitric oxide radiative cooling in the thermosphere , 2010 .
[7] T. Gombosi,et al. Modeling solar zenith angle effects on the polar wind , 2012 .
[8] J. Kasting,et al. Hydrodynamic planetary thermosphere model: 1. Response of the Earth's thermosphere to extreme solar EUV conditions and the significance of adiabatic cooling , 2008 .
[9] H. Lammer,et al. The Extreme Ultraviolet and X-Ray Sun in Time: High-Energy Evolutionary Tracks of a Solar-Like Star , 2015, 1504.04546.
[10] S. Mohanty,et al. Habitability of terrestrial-mass planets in the HZ of M Dwarfs – I. H/He-dominated atmospheres , 2016, 1601.05143.
[11] Jan Laštovička,et al. Solar activity impact on the Earth’s upper atmosphere , 2013 .
[12] A. Nagy,et al. On the effect of the martian crustal magnetic field on atmospheric erosion , 2008 .
[13] O. W. Lennartsson,et al. Solar wind control of Earth's H+ and O+ outflow rates in the 15‐eV to 33‐keV energy range , 2004 .
[14] A. Hedin. MSIS‐86 Thermospheric Model , 1987 .
[15] William C. Danchi,et al. Prebiotic chemistry and atmospheric warming of early Earth by an active young Sun , 2016 .
[16] D. Mitchell,et al. The electric wind of Venus: A global and persistent “polar wind”‐like ambipolar electric field sufficient for the direct escape of heavy ionospheric ions , 2016, Geophysical Research Letters.
[17] Suvrath Mahadevan,et al. THE INNER EDGE OF THE HABITABLE ZONE FOR SYNCHRONOUSLY ROTATING PLANETS AROUND LOW-MASS STARS USING GENERAL CIRCULATION MODELS , 2016, 1602.05176.
[18] J. Russell,et al. Influence of solar variability on the infrared radiative cooling of the thermosphere from 2002 to 2014 , 2014, Geophysical research letters.
[19] Thomas N. Woods,et al. Flare Irradiance Spectral Model (FISM): Flare component algorithms and results , 2008 .
[20] C. Anderson,et al. Ion–neutral coupling in Earth's thermosphere, estimated from concurrent radar and optical observations above Alaska , 2013 .
[21] S. Brecht,et al. Ionospheric loss from Mars as predicted by hybrid particle simulations , 2016 .
[22] M. Liemohn,et al. Outflow in global magnetohydrodynamics as a function of a passive inner boundary source , 2014 .
[23] G. Rottman,et al. XUV Photometer System (XPS): Solar Variations during the SORCE Mission , 2005 .
[24] M. Liemohn,et al. Self-Consistent Superthermal Electron Effects on Plasmaspheric Refilling , 1997 .
[25] Ignasi Ribas,et al. Loss of water from Mars: Implications for the oxidation of the soil , 2003 .
[26] Kevin France,et al. THE MUSCLES TREASURY SURVEY. III. X-RAY TO INFRARED SPECTRA OF 11 M AND K STARS HOSTING PLANETS , 2016, 1604.04776.
[27] Yiqun Yu,et al. The response of the magnetosphere-ionosphere system to a sudden dynamic pressure enhancement under southward IMF conditions , 2009 .
[28] J. Drake,et al. THE SPACE WEATHER OF PROXIMA CENTAURI b , 2016, 1609.09076.
[29] R. P. Butler,et al. A JUPITER-LIKE PLANET ORBITING THE NEARBY M DWARF GJ 832 , 2008, 0809.0172.
[30] L. F. Sarmiento,et al. A terrestrial planet candidate in a temperate orbit around Proxima Centauri , 2016, Nature.
[31] Christopher T. Russell,et al. Effects of crustal field rotation on the solar wind plasma interaction with Mars , 2014 .
[32] Jan-Erik Wahlund,et al. Role of the ionosphere for the atmospheric evolution of planets. , 2007, Astrobiology.
[33] H. Lichtenegger,et al. Solar XUV and ENA‐driven water loss from early Venus' steam atmosphere , 2016, 1911.02288.
[34] B. Jakosky,et al. A comparison of 3‐D model predictions of Mars' oxygen corona with early MAVEN IUVS observations , 2015 .
[35] J. Lyon,et al. Effects of solar wind dynamic pressure on the ionospheric O+ fluence during the 31 August 2005 storm , 2010 .
[36] J. Nordholt,et al. High-Altitude Observations of the Polar Wind , 1997 .
[37] D. Apai,et al. A STELLAR-MASS-DEPENDENT DROP IN PLANET OCCURRENCE RATES , 2014, 1406.7356.
[38] R. Elphic,et al. Factors controlling ionospheric outflows as observed at intermediate altitudes , 2005 .
[39] R. Barnes,et al. Tidal Heating of Earth-like Exoplanets around M Stars: Thermal, Magnetic, and Orbital Evolutions , 2015, Astrobiology.
[40] Kevin France,et al. THE MUSCLES TREASURY SURVEY. II. INTRINSIC LYα AND EXTREME ULTRAVIOLET SPECTRA OF K AND M DWARFS WITH EXOPLANETS , 2016, 1604.01032.
[41] I. Ribas,et al. THE EVOLUTION OF SOLAR FLUX FROM 0.1 nm TO 160 μm: QUANTITATIVE ESTIMATES FOR PLANETARY STUDIES , 2012 .
[42] Ness,et al. Global distribution of crustal magnetization discovered by the mars global surveyor MAG/ER experiment , 1999, Science.
[43] C. Cully,et al. Akebono/Suprathermal Mass Spectrometer observations of low‐energy ion outflow: Dependence on magnetic activity and solar wind conditions , 2003 .
[44] Helmut Lammer,et al. Atmospheric Escape and Evolution of Terrestrial Planets and Satellites , 2008 .
[45] L. Kistler,et al. Multifluid Block-Adaptive-Tree Solar Wind Roe-Type Upwind Scheme: Magnetospheric Composition and Dynamics During Geomagnetic Storms-Initial Results , 2009 .
[46] T. Spohn,et al. THE INFLUENCE OF PRESSURE-DEPENDENT VISCOSITY ON THE THERMAL EVOLUTION OF SUPER-EARTHS , 2012 .
[47] G. Lapenta,et al. Understanding space weather to shield society: A global road map for 2015-2025 commissioned by COSPAR and ILWS , 2015, 1503.06135.
[48] A. Pulkkinen,et al. Modeling extreme “Carrington‐type” space weather events using three‐dimensional global MHD simulations , 2013 .
[49] Manuel Güdel,et al. The X-Ray Sun in Time: A Study of the Long-Term Evolution of Coronae of Solar-Type Stars , 1997 .
[50] P. Rojo,et al. TRANSIT MONITORING IN THE SOUTH (TraMoS) PROJECT: DISCARDING TRANSIT TIMING VARIATIONS IN WASP-5b , 2012, 1201.3616.
[51] E. Guinan,et al. The habitability of Proxima Centauri b. I. Irradiation, rotation and volatile inventory from formation to the present , 2016, 1608.06813.