About this book
Heliophysics is a fast-developing scientific discipline that integrates studies of the Sun's variability, the surrounding heliosphere, and the environment and climate of planets. Over the past few centuries, our understanding of how the Sun drives space weather and climate on the Earth and other planets has advanced at an ever increasing rate. This volume, the last in a series of three heliophysics texts, focuses on long-term variability from the Sun's decade-long sunspot cycle and considers the evolution of the planetary system over ten billion years from a climatological perspective. Topics covered range from the dynamo action of stars and planets to processes in the Earth's troposphere, ionosphere, and magnetosphere and their effects on planetary climate and habitability. Supplemented by online teaching materials, it can be used as a textbook for courses or as a foundational reference for researchers in fields from astrophysics and plasma physics to planetary and climate science.
Contents
Preface
1. Interconnectedness in heliophysics Carolus J. Schrijver and George L. Siscoe
2. Long-term evolution of magnetic activity of Sun-like stars Carolus J. Schrijver
3. Formation and early evolution of stars and proto-planetary disks Lee W. Hartmann
4. Planetary habitability on astronomical time scales Donald E. Brownlee
5. Solar internal flows and dynamo action Mark S. Miesch
6. Modeling solar and stellar dynamos Paul Charbonneau
7. Planetary fields and dynamos Ulrich R. Christensen
8. The structure and evolution of the 3D solar wind John T. Gosling
9. The heliosphere and cosmic rays J. Randy Jokipii
10. Solar spectral irradiance: measurements and models Judith L. Lean and Thomas N. Woods
11. Astrophysical influences on planetary climate systems Juerg Beer
12. Evaluating the drivers of Earth's climate system Thomas J. Crowley
13. Ionospheres of the terrestrial planets Stanley C. Solomon
14. Long-term evolution of the geospace climate Jan J. Sojka
15. Waves and transport processes in atmospheres and oceans Richard L. Walterscheid
16. Solar variability, climate, and atmospheric photochemistry Guy P. Brasseur, Daniel Marsch and Hauke Schmidt
Appendix I. Authors and editors
List of illustrations
List of tables
Bibliography
Index
Customer Reviews
Biography
Carolus J. Schrijver is an astrophysicist studying the causes and effects of magnetic activity of the Sun and of stars like the Sun, and the coupling of the Sun's magnetic field into the surrounding heliosphere. He obtained his doctorate in physics and astronomy at the University of Utrecht in The Netherlands in 1986, and has since worked for the University of Colorado, the U.S. National Solar Observatory, the European Space Agency, and the Royal Academy of Sciences of the Netherlands. Dr Schrijver is currently principal physicist at Lockheed Martin's Advanced Technology Center, where his work focuses primarily on the magnetic field in the solar atmosphere. He is an editor or editorial board member of several journals including Solar Physics, Astronomical Notices, and Living Reviews in Solar Physics, and has co-edited three other books. George L. Siscoe received his Ph.D. in physics from the Massachusetts Institute of Technology (MIT) in 1964. He has since held positions at the California Institute of Technology, MIT, and the University of California, Los Angeles, where he was Professor and Chair of the Department of Atmospheric Sciences. He is currently a Research Professor in the Astronomy Department at Boston University. Professor Siscoe has been a member and chair of numerous international committees and panels and is on the editorial board of the Journal of Atmospheric and Solar Terrestrial Physics. He is a Fellow of the American Geophysical Union and the second Van Allen Lecturer of the AGU, 1991. He has authored or co-authored over 300 publications that cover most areas of heliophysics.