Heliophysics: Evolving Solar Activity and the Climates of Space and EarthCarolus J. Schrijver, George L. Siscoe Cambridge University Press, 23 սեպ, 2010 թ. 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 2010 volume, the last in this 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. |
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| 1 | |
| 11 | |
3 Formation and early evolution of stars and protoplanetary disks | 49 |
4 Planetary habitability on astronomical time scales | 79 |
5 Solar internal flows and dynamo action | 99 |
6 Modeling solar and stellar dynamos | 141 |
7 Planetary fields and dynamos | 179 |
8 The structure and evolution of the threedimensional solar wind | 217 |
12 Assessing the Sunclimate relationship in paleoclimate records | 333 |
13 Terrestrial ionospheres | 351 |
14 Longterm evolution of the geospace climate | 363 |
15 Waves and transport processes in atmospheres and oceans | 389 |
16 Solar variability climate and atmospheric photochemistry | 425 |
Appendix I Authors and editors | 449 |
List of illustrations | 451 |
List of tables | 460 |
9 The heliosphere and cosmic rays | 243 |
measurements and models | 269 |
11 Astrophysical influences on planetary climate systems | 299 |
References | 461 |
| 488 | |
Common terms and phrases
a-effect accretion active regions altitude amplitude angular momentum atmo atmosphere boundary changes Chapter component convection zone core coronal cosmic rays density differential rotation diffusion dipole disk dynamo action dynamo models Earth effects emission energy equation field lines field strength flow forcing galactic geomagnetic field global gravity waves habitable zone heat helicity Heliophysics heliosphere ICME interaction ionization ionosphere large-scale latitudes layer luminosity magnetic activity magnetic field magnetic flux mass Maunder minimum mean-field meridional circulation modulation observed orbit ozone panel parameters particles photosphere Phys planetary planets plasma polar poloidal propagation radiation radiative relative Rossby Rossby waves scale Schrijver Section shear simulations solar activity solar cycle solar irradiance solar minimum solar system solar variability solar wind spectrum stars stellar stratosphere structure Sun’s sunspot cycle sunspot number surface tachocline temperature thermal thermosphere toroidal toroidal field total solar irradiance transport turbulent velocity vertical wavelengths zonal