In Preparation |
[2] Shuang Wang and Jun Yang: What determines the distance of the hot spot shift on tidally locked dry planets, in preparation. |
[1] Junyan Xiong and Jun Yang: Effects of Varying Air Pressure on the Climate of Early Earth, in preparation. |
2020 |
2019 |
[5] Jun Yang, Weiwen Ji, and Yaoxuan Zeng: Transition from Eyeball to Snowball Driven by Sea-ice Drift on Tidally Locked Terrestrial Planets, Nature Astronomy, 2019. [Link] Press: PKU News, ScienceNet.cn |
[4] Thomas Fauchez and coauthors including Jun Yang: TRAPPIST-1 Habitable Atmosphere Intercomparison (THAI): Motivations and Protocol, Geoscientific Model Development, in revision, 2019. |
[3] Yidongfang Si, Yonggang Liu, Yuwei Wang, and Jun Yang: Tidal mixing and climate of asychronously rotating terrestrial planets around low-mass stars, Astrophysical Journal, submitted, 2019. |
[2] Nie, J., Y. Xia, S. Hu, W. Yuan, J. Yang, and D. Ma: Similarity among atmospheric thermal stratification over elevated surface under Radiative-Convective Equilibrium, Geophysical Research Letters, 46. |
[1] Yan Xia, Yi Huang, Yongyun Hu, and Jun Yang: Impacts of tropical tropopause warming on the stratospheric water vapor, Climate Dynamics. |
2018 |
[4] Jun Yang, Dorian S. Abbot, Daniel D.B. Koll, Yongyun Hu, and Adam P. Showman: Ocean dynamics and the inner edge of the habitable zone for tidally locked terrestrial planets, Astrophysical Journal, 871:29, 17pp, 2019. [Link] |
[3] Jun Yang, Jeremy Leconte, Eric T. Wolf, Timonthy Merlis, Daniel D.B. Koll, Francois Forget, and Dorian S. Abbot: Simulations of Water Vapor and Clouds on Rapidly Rotating and Tidally Locked Planets: a 3D Model Intercomparison, Astrophysical Journal, 875, 46. [Link] |
[2] Qiang Wei, Yongyun Hu, Yonggang Liu, Douglas N. C. Lin, Jun Yang, and Adam P. Showman: Young Surface of Pluto’s Sputnik Planitia Caused by Viscous Relaxation, Astrophysical Journal Letters, 856, L14, 2018. |
[1] Yonggang Liu, and coauthors including Jun Yang: Influence of Surface Topography on the Critical Carbon Dioxide Level Required for the Formation of a Modern Snowball Earth, Journal of Climate, 31, 8463-8479, 2018. [Link] |
2017 |
[3] Jun Yang, Feng Ding, Ramses M. Ramirez, W. R. Peltier, Yongyun Hu, and Yonggang Liu 2017: Abrupt Climate Transition of Icy Worlds from snowball to moist or runaway greenhouse, Nature Geoscience, 10, 556-560. [Link] Press: Nature Geoscience News & Views, Scientific American, PHYS.org, Nature Highlight, Nature Research (Chinese), MOTHERBROAD |
[2] Jun Yang, Malte F. Jansen, Francis A. Macdonald, and Dorian S. Abbot, 2017: Persistence of a freshwater surface ocean after a snowball Earth, Geology, 45(7), 615-618. [Link] Press: New Scientist |
[1] Hu, Y., Y. Wang, Y. Liu, and J. Yang, 2017: Climate and habitability of Kepler 452b simulated with a fully coupled atmospheric-oceanic general circulation model. Astrophysical J. Lett., 85, L6. |
2016 |
[5] Yang, Jun, Jeremy Leconte, Eric T. Wolf, Colin Goldblatt, Nicole Feldl, Timonthy Merlis, Yuwei Wang, Daniel D.B. Koll, Feng Ding, Francois Forget, and Darian S. Abbot, 2016: Differences in water vapor radiative transfer among 1D models can significantly affect the inner edge of the habitable zone, The Astrophysical Journal, 826(2). |
[4] Yang, J., W. R. Pektier, and Y. Hu, 2016: Monotonic Decrease of the Zonal SST Gradient of the Equatorial Pacific as a Function of CO2 Concentration, J. Geophys. Res. Atmos., 121, 10,637–10,653. [Link] |
[3] Wang, Y., Y. Liu, F. Tian, J. Yang, F. Ding, L. Zhou, Y. Hu, 2016: Effects of obliquity on habitability of exoplanets around M dwarfs. Astrophys. J. Lett., 823, L20. |
[2] Kopparapu, R., E. T. Wolf, J. Haqq-Misra, J. Yang, J. F. Kasting, V. Meadows, R. Terrien, and S. Mahaevan, Inner Edge of Habitable Zone for Synchronously Rotating Planets Around Low-mass Stars Using 3-D GCM Models, The Astrophysical Journal, 819:84, 14 pp. |
[1] Liu, Y., W. R. Peltier, J. Yang, G. Vettoretti, and Y. Wang, Strong Effects of Tropical Ice Sheet Coverage and Thickness on The Hard Snowball Earth Bifurcation Point. Climate Dynamics. [Link] |
2014 |
[4] Yang, J., Y. Liu, Y. Hu, and D. S. Abbot, 2014: Water Trapping on Tidally Locked Terrestrial Planets Requires Special Conditions. The Astrophysical Journal Letters, 796 L22. Press: Astrobiology Magazine, astrobites.org |
[3] Yang, J., G. Boue, D. C. Frabrycky, and D. S. Abbot, 2014: Strong Dependence of the Inner Edge of the Habitable Zone on Planetary Rotation Rate. The Astrophysical Journal Letters, 787, L2. [Link] Press: astrobites.org |
[2] Hu, Y., and J. Yang, 2014: Role of ocean heat transport in climates of tidally locked exoplanets around M-dwarf Stars. PNAS, 111, 629-634. [Link] Press: SciTechDaily |
[1] Yang, J., and D. S. Abbot, 2014: A low-order model of water vapour, clouds, and thermal emission of tidally locked terrestrial planets. The Astrophysical Journal, 784, 155. [Link] |
2013 |
[2] Liu, Y., W. R. Peltier, J. Yang, G. Vettoretti, 2013: The initiation of Neoproterozoic Snowball Climates in CCSM3: The Influence of Paleo-Continental Configuration, Clim. Past, 9, 2579-2593. [Link] |
[1] Yang, J., N. B. Cowan, and D. S. Abbot, 2013: Stabilizing cloud feedback dramatically expands the habitable zone of tidally locked planets, The Astrophysical Journal Letters, 771, L45. [Link] Press: UChicago News, National Geographic, LA Times |
2012 |
[4] Yang, J., Y. Hu, and W. R. Peltier, 2012: Radiative effects of ozone on climate of a Snowball Earth. Clim. Past, 8, 2019-2029. [Link] |
[3] Yang, J., W. R. Peltier, and Y. Hu, 2012: The initiation of modern soft and hard Snowball Earth climates in CCSM4. Clim. Past, 8, 907-918. [Link] |
[2] Yang, J., W. R. Peltier, and Y. Hu, 2012: The initiation of modern "soft Snowball" and "hard Snowball" climates in CCSM3. Part II: climate dynamic feedbacks. J. Climate, 25, 2737-2754. [Link] |
[1] Yang, J., W. R. Peltier, and Y. Hu, 2012: The initiation of modern "soft Snowball" and "hard Snowball" climates in CCSM3. Part I: the influence of solar luminosity, CO2 concentration and the sea-ice/snow albedo parameterization. J. Climate, 25, 2721-2736. [Link] |
Before 2012 |
[2] Hu, Y., J. Yang, F. Ding, and W. R. Peltier, 2011: Model-dependence of the CO2 threshold for melting the hard Snowball Earth. Clim. Past, 7, 17-25. [Link] |
[1] Hu, Y., D. Yang, and J. Yang, 2008: Blocking systems over an aqua-planet. Geophys. Res. Lett., 35, L19818. [Link] |
Others |
[4] Jun Yang and Yongyun Hu, 2017: Carl-Gustaf Rossby, translated from James R. Fleming, Physics Today, 2017, (1):51, Physics, 46(1), 39-40, in Chinese. |
[3] Weiwen Ji, Ru Chen, and Jun Yang: Idealized Wind-driven Ocean Circulations On Exoplanets, arXiv:1809.01376. [Link] |
[2] Juan Li, Yan Xia, and Jun Yang: Spatial patterns of surface warming in dry and moist atmospheric general circulation models with realistic radiative transfer, to be submitted, in Chinese. |
[1] Huanzhou Yang and Jun Yang: How do planetary radius and gravity influence the surface temperature of rapidly rotating planets, in preparation. |