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The Environment of the Young Earth in the Perspective of An Young Sun

Published online by Cambridge University Press:  12 September 2017

Vladimir S. Airapetian*
Affiliation:
NASA GSFC, Code 671, Greenbelt, MD, USA email: [email protected]
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Abstract

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Our Sun, a magnetically mild star, exhibits space weather in the form of magnetically driven solar explosive events (SEE) including solar flares, coronal mass ejections and energetic particle events. We use Kepler data and reconstruction of X-ray and UV emission from young solar-like stars to recover the frequency and energy fluxes from extreme events from active stars including the young Sun. Extreme SEEs from a magnetically active young Sun could significantly perturb the young Earth's magnetosphere, cause strong geomagnetic storms, initiate escape and introduce chemical changes in its lower atmosphere. I present our recent simulations results based on multi-dimensional multi-fluid hydrodynamic and magnetohydrodynamic models of interactions of extreme CME and SEP events with magnetospheres and lower atmospheres of early Earth and exoplanets around active stars. We also discuss the implications of the impact of these effects on evolving habitability conditions of the early Earth and prebiotic chemistry introduced by space weather events at the early phase of evolution of our Sun.

Type
Contributed Papers
Copyright
Copyright © International Astronomical Union 2017 

References

Abramov, O. & Mojzsis, S. J., 2009, Nature, 459, 419 Google Scholar
Airapetian, V. S., Glocer, A., Khazanov, G. V., Loyd, R. O. P., France, Kevin et al., 2017a, ApJ Letters, 836, L3 CrossRefGoogle Scholar
Airapetian, V. S., Zank, G., Verkhodlyadova, O., Li, G., Gronoff, G. 2017b, in preparation.Google Scholar
Airapetian, V. S., Glocer, A., Gronoff, G. E., H/ebrard, E., Danchi, W. 2016, Nature Geoscience, DOI:10.1038/NGEO2719Google Scholar
Airapetian, V. & Usmanov, A., 2016, ApJ Let., 817, L24 Google Scholar
Airapetian, V., Glocer, A., & Danchi, W. 2015, Proc. of the 18th Cambridge Workshop on Cool Stars, Stellar Systems, and the Sun, Lowell Observatory (9-13 June 2014) Eds: van Belle, G. & Harris, H. (eprint arXiv:1409.3833)Google Scholar
Aarnio, A. N., Stassun, K. G., Hughes, W. J., & McGregor, S. L., 2011, Sol.Phys., 268, 195 Google Scholar
Thakur, N., Gopalswamy, N., Xie, H., Makela, P., Akijama, P., Davila, J. M., & Rickard, L. J., 2014, ApJLet, 790, L13 CrossRefGoogle Scholar
Birch, J. L. et al. 2016, Science, 352, id.aaf2939Google Scholar
Biggin, A. J., Strik, G. H. M. A., & Langereis, C. G., 2008, Nature Geoscience, 1, 395 Google Scholar
Bell, E. A., Boehnke, P., Harrison, T.M. & Mao, W. L. 2015, PNAS, 112, 14, 518 Google Scholar
Claire, M. W. et al. 2012, ApJ. 757, 95 Google Scholar
Cohen, O., Drake, J. J., Glocer, A., Garraffo, C., Poppenhaeger, K., Bell, J. M., Ridley, A. J., Gombosi, T. I., 2014, ApJ, 790, 57 Google Scholar
Garraffo, C., Drake, J. J., Cohen, O. 2016, A&A, 595, id.A110Google Scholar
Gomes, R., Levison, H. F., Tsiganis, K., & Morbidelli, A., 2005, Nature, 435, 466 Google Scholar
de Zeeuw, D. L., Sazykin, S., Wolf, R. A., Gombosi, T. I., Ridley, A. J., Toth, G., 2004, JGR, 109, A12 Google Scholar
Emslie, A. G. et al., 2012, ApJ, 759, 71 Google Scholar
Glocer, A., Toth, G., Gombosi, T., & Welling, D., 2009, JGR., 114 Google Scholar
Glocer, A., Kitamura, N., Tóth, G., & Gombosi, T., 2012, JGR., 117, A04318, doi: 10.1029/2011JA017136 Google Scholar
Gopalswamy, N. 2011, First Asia-Pacific Solar Physics Meeting ASI Conference Series, 2011, Vol. 2, pp 2, Edited by Choudhuri, Arnab Rai & Banerjee, Dipankar Google Scholar
Gopalswamy, N., Yashiro, S., Thakur, N., Mäkelä, P., Xie, H., & Akiyama, S. 2016, ApJ, 833, Issue 2, article id. 216Google Scholar
Gough, D. O. 1981, Solar Phys. 74, 21 Google Scholar
Gronoff, G. et al. 2014, Geophys. Res. Lett. 41, 4844 Google Scholar
Güdel, M, Guinan, E. F., & Skinner, S. L., 1997, ApJ, 483, 947 Google Scholar
Kasting, J. F. 2010, Nature, 464, 687 Google Scholar
Knipp, D. J., Pette, D. V., Lilcommons, L. M. et al. 2017, Space Weather, 15, doi:10.1002/20165W001567 Google Scholar
Khazanov, G. 2011, Kinetic Theory of the Inner Magnetospheric Plasma, Astrophysics and Space Science Library, Vol. 372. ISBN 978-1-4419-6796-1. Springer CrossRefGoogle Scholar
Khazanov, G. V., Tripathi, A. K., Sibeck, D., Himwich, E., Glocer, A., & Singhal, R. P. 2015, JGR, 20, Issue 11, 9891 Google Scholar
Kobayashi, K., Masuda, H., Ushi, K., Ohashi, A. Yamanashi, H. et al. 2001, Adv. Space Res. 27, No. 2, 207 Google Scholar
Kobayashi, K., Aoki, R., Abe, H., Kebukawa, Y., Shibata, H., Yoshida, S., Fukuda, H., Kondo, K., Oguri, Y., & Airapetian, V. S. 2017, Astrobiology Science Conference 2017, Abstract #3 259Google Scholar
Kramar, M., Airapetian, V., & Lin, H. 2016, Frontiers in Astronomy and Space Sciences, Volume 3, id.25Google Scholar
Lammer, H., Kasting, J. F., Chassefiere Johnson, R. E., Kulikov, Y. N., & Fian, F., 2008, Space Sci. Rev., 139, 399 Google Scholar
Land, C. & Feichter, J. 2003, JGR, 108, Issue D12, 10.1029/2002JD002543 Google Scholar
Le, et al., 2016, GRL, 43, 2396 Google Scholar
Love, J. J., 2012, GRL., 39, L10301 Google Scholar
Loyd, R. O. P., France, Kevin, Youngblood, A., Schneider, C., Brown, A., Hu, R., Linsky, K., Froning, C. S., Redfield, S., Rugheimer, S., & Tian, F., 2016, ApJ, 824, 102 Google Scholar
Maehara, H. et al. 2012, Nature, 485, 478 CrossRefGoogle Scholar
Miyake, F., Nagaya, K., Masuda, K., & Nakamura, T., 2012, Nature, 486, 240 Google Scholar
Ngwira, C. M., Pulkkinen, A., Kuznetsova, M. M. & Glocer, A., 2014, JGR, 119, 4456 Google Scholar
Nitta, N. V., Aschwanden, M. J., Freeland, S. L., Lemen, J. R., Wülser, J.-P., & Zarro, D. M., 2014, Sol. Phys., 289, 1257 Google Scholar
Mikhail, & Sverjensky, 2014, Nature Geoscience, 7, 816 Google Scholar
Mewaldt, R. A., Cohen, C. M. S., Labrador, A. W., Leske, R. A., Mason, G. M., Desai, M. I., Looper, M. D., Mazur, J. E., Selesnick, R. S., & Haggerty, D. K., 2005, JGR, 110, A09S18 Google Scholar
Mironova, I. A. & Usoskin, I. G. 2014, Environ. Res. Lett., 9Google Scholar
Powell, K. G., Roe, P. L., Linde, T. J., Gombosi, T. I., & De Zeeuw, D. L., 1999, JCP, 154, 284 Google Scholar
Pevtsov, A. A., Fisher, G. H., Acton, L. W., Longcope, D. W., Johns-Krull, C. M., Kankelborg, C. C., & Metcalf, T. R., 2003, ApJ, 589, 1387 Google Scholar
Ramirez, R. M., Kopparapu, R., Zugger, M. E., Robinson, T. D., Freedman, , & Kasting, J. 2014, Nature Geoscience, 7, Issue 1, 59 Google Scholar
Ramirez, R. M. 2016, Nature Geoscience, 9, Issue 6, 413 Google Scholar
Ridley, A. J., Hansen, K. C., Tóth, G., de Zeeuw, D. L., Gombosi, T. I., & Powell, K. G., 2002, JGR, 107, 1290 Google Scholar
Riley, P., Caplan, R. M., Giacalone, J., Lario, D., & Liu, Y., 2016, ApJ, 819, 57 Google Scholar
Roberson, A. L., Roadt, J., Halevy, I., & Kasting, J. F., 2011, Geobiology, 9, 313 Google Scholar
Rosing, M. T., Bird, D. K., Sleep, N. H. & Bjerrum, C. J. 2010, Nature, 464, 744 Google Scholar
Sagan, C. & Mullen, G., 1972, Science, 177, 52 Google Scholar
Saladino, R., Carota, E., Botta, G., Kapralov, M., Timoshenko, G. N., Rozanov, A. Y., Krasavin, E., & Ernesto Di Mauro, E. 2015, Publ. Nat. Acad. Sci., 112 (21), E2746 Google Scholar
Schrijver, C. J., Kauristie, Kirst A., Alan, D., Denardini, C. M., Gibson, S. E., Glover, A., Gopalswamy, N., Grande, M., Hapgood, M., Heynderickx, D., & 16 coauthors, 2015, Advances in Space Res., 55, 2745 Google Scholar
Shibayama, T., Maehara, H., Notsu, S., Notsu, Y., Nagao, T., Honda, S., Ishii, T. T., Nogami, D., & Shibata, K., 2013, ApJSS, 209, 5 Google Scholar
Schrijver, C. J. & Title, A. M., 2013, ApJ, 619, 1077 Google Scholar
Som, S. M., Buick, R., Hagadorn, J. W., Blake, T. S., Perreault, J. M., Harnmeijer, J. P., & Catling, D. C. 2016 Nature Geoscience, 9,448Google Scholar
Sterenborg, M. G., Cohen, O., Drake, J. J., & Gombosi, T. I. 2011, 116, A01217Google Scholar
Strangeway, R. J., Ergun, R. E., Su, Y.-J., Carlson, C. W., & Elphic, R. C. 2005, JGR, 110, Issue A3, CiteID A03221Google Scholar
Tarduno, J. A., Blackman, E. G., & Mamajek, E. E., 2014, Physics of the Earth and Planetary Interiors, 233, 68 Google Scholar
Tarduno, J. A., Cottrell, R. D., Watkeys, M. K., Hofmann, A., Doubrovine, P. V., Mamajek, E. E., Liu, D., Sibeck, D. G., Neukirch, L. P., & Usui, Y. 2010, Science, 327, Issue 5970, 1238 Google Scholar
Tian, F., Kasting, J. F. Liu, H.-Li, & Roble, R. G. 2008, JGR, 113, Issue E5, CiteID E05008Google Scholar
Thomas, B. C., Melott, A. L., Arkenberg, K. R., & Snyder, B. R., 2013, Geoph. Res. Let, 40, 1237 Google Scholar
Tsurutani, B. T., Gonzales, W. D., Lakhina, G. S. & Alex, S. 2003, J. Geophys. Res., 108, 1268 Google Scholar
Tsurutani, B. T. & Lakhina, G. S., 2014, Geoph. Res. Let, 41, 287 Google Scholar
Tu, L., Johnstone, C., Gudel, M., & Lammer, H. 2016, A&A, 577, L3 Google Scholar
Vidotto, A. A., Gregory, S. G., Jardine, M., Donati, J. F., Petit, P. et al., 2014, NMRAS, 441, 2361 Google Scholar
Yashiro, S. & Gopalswamy, N. 2009, in IAU Symp.257, Universal Geophysical Processes, ed. Gopalswamy, N. & Webb, D. F. (Cambridge: Cambridge Univ. Press), 233 Google Scholar
Weimer, D. R., Mlynczak, M. G., Hunt, L. A., & Tobiska, W. K., 2015, JGR, 120, 5998 Google Scholar
Wilde, S., Valley, J. W., Peck, W. H. & Graham, C. M., 2001, Nature, 409, 175 CrossRefGoogle Scholar
Wood, B. E., Müller, H-R, Zank, G. P., Linsky, J. L. & Redfield, S., 2005, ApJ, 628, L143 Google Scholar
Zhao, Y., Wang, R., Lu, Q., Du, A., Yao, Z., & Wu, M. 2016, JGR, 121, Issue 11, 10,898 Google Scholar