_version_ 1866913286685982720
author Schrijver, Karel
Bagenal, Fran
Bastian, Tim
Beer, Juerg
Bisi, Mario
Bogdan, Tom
Bougher, Steve
Boteler, David
Brain, Dave
Brasseur, Guy
Brownlee, Don
Charbonneau, Paul
Cohen, Ofer
Christensen, Uli
Crowley, Tom
Fischer, Debrah
Forbes, Terry
Fuller-Rowell, Tim
Galand, Marina
Giacalone, Joe
Gloeckler, George
Gosling, Jack
Green, Janet
Gross, Nick
Guetersloh, Steve
Hansteen, Viggo
Hartmann, Lee
Horanyi, Mihaly
Hudson, Hugh
Jakowski, Norbert
Jokipii, Randy
Kivelson, Margaret
Krauss-Varban, Dietmar
Krupp, Norbert
Lean, Judith
Linsky, Jeff
Longcope, Dana
Marsh, Daniel
Miesch, Mark
Moldwin, Mark
Moore, Luke
Odenwald, Sten
Opher, Merav
Osten, Rachel
Rempel, Matthias
Schmidt, Hauke
Siscoe, George
Siskind, Dave
Smith, Chuck
Solomon, Stan
Stallard, Tom
Stanley, Sabine
Sojka, Jan
Tobiska, Kent
Toffoletto, Frank
Tribble, Alan
Vasyliunas, Vytenis
Walterscheid, Richard
Wang, Ji
Wood, Brian
Woods, Tom
Zapp, Neal
author_facet Schrijver, Karel
Bagenal, Fran
Bastian, Tim
Beer, Juerg
Bisi, Mario
Bogdan, Tom
Bougher, Steve
Boteler, David
Brain, Dave
Brasseur, Guy
Brownlee, Don
Charbonneau, Paul
Cohen, Ofer
Christensen, Uli
Crowley, Tom
Fischer, Debrah
Forbes, Terry
Fuller-Rowell, Tim
Galand, Marina
Giacalone, Joe
Gloeckler, George
Gosling, Jack
Green, Janet
Gross, Nick
Guetersloh, Steve
Hansteen, Viggo
Hartmann, Lee
Horanyi, Mihaly
Hudson, Hugh
Jakowski, Norbert
Jokipii, Randy
Kivelson, Margaret
Krauss-Varban, Dietmar
Krupp, Norbert
Lean, Judith
Linsky, Jeff
Longcope, Dana
Marsh, Daniel
Miesch, Mark
Moldwin, Mark
Moore, Luke
Odenwald, Sten
Opher, Merav
Osten, Rachel
Rempel, Matthias
Schmidt, Hauke
Siscoe, George
Siskind, Dave
Smith, Chuck
Solomon, Stan
Stallard, Tom
Stanley, Sabine
Sojka, Jan
Tobiska, Kent
Toffoletto, Frank
Tribble, Alan
Vasyliunas, Vytenis
Walterscheid, Richard
Wang, Ji
Wood, Brian
Woods, Tom
Zapp, Neal
contents Heliophysics is the system science of the physical connections between the Sun and the solar system. As the physics of the local cosmos, it embraces space weather and planetary habitability. The wider view of comparative heliophysics forms a template for conditions in exoplanetary systems and provides a view over time of the aging Sun and its magnetic activity, of the heliosphere in different settings of the interstellar medium and subject to stellar impacts, of the space physics over evolving planetary dynamos, and of the long-term influence on planetary atmospheres by stellar radiation and wind. Based on a series of NASA-funded summer schools for early-career researchers, this textbook is intended for students in physical sciences in later years of their university training and for beginning graduate students in fields of solar, stellar, (exo-)planetary, and planetary-system sciences. The book emphasizes universal processes from a perspective that draws attention to what provides Earth (and similar (exo-)planets) with a relatively stable setting in which life as we know it could thrive. The text includes 200 "Activities" in the form of exercises, explorations, literature readings, "what if" challenges, and group discussion topics; many of the Activities provide additional information complementing the main text. Solutions and discussions are included in an Appendix for a selection of the exercises.
format Preprint
id arxiv_https___arxiv_org_abs_1910_14022
institution arXiv
publishDate 2019
record_format arxiv
spellingShingle Principles Of Heliophysics: a textbook on the universal processes behind planetary habitability
Schrijver, Karel
Bagenal, Fran
Bastian, Tim
Beer, Juerg
Bisi, Mario
Bogdan, Tom
Bougher, Steve
Boteler, David
Brain, Dave
Brasseur, Guy
Brownlee, Don
Charbonneau, Paul
Cohen, Ofer
Christensen, Uli
Crowley, Tom
Fischer, Debrah
Forbes, Terry
Fuller-Rowell, Tim
Galand, Marina
Giacalone, Joe
Gloeckler, George
Gosling, Jack
Green, Janet
Gross, Nick
Guetersloh, Steve
Hansteen, Viggo
Hartmann, Lee
Horanyi, Mihaly
Hudson, Hugh
Jakowski, Norbert
Jokipii, Randy
Kivelson, Margaret
Krauss-Varban, Dietmar
Krupp, Norbert
Lean, Judith
Linsky, Jeff
Longcope, Dana
Marsh, Daniel
Miesch, Mark
Moldwin, Mark
Moore, Luke
Odenwald, Sten
Opher, Merav
Osten, Rachel
Rempel, Matthias
Schmidt, Hauke
Siscoe, George
Siskind, Dave
Smith, Chuck
Solomon, Stan
Stallard, Tom
Stanley, Sabine
Sojka, Jan
Tobiska, Kent
Toffoletto, Frank
Tribble, Alan
Vasyliunas, Vytenis
Walterscheid, Richard
Wang, Ji
Wood, Brian
Woods, Tom
Zapp, Neal
Solar and Stellar Astrophysics
Earth and Planetary Astrophysics
Heliophysics is the system science of the physical connections between the Sun and the solar system. As the physics of the local cosmos, it embraces space weather and planetary habitability. The wider view of comparative heliophysics forms a template for conditions in exoplanetary systems and provides a view over time of the aging Sun and its magnetic activity, of the heliosphere in different settings of the interstellar medium and subject to stellar impacts, of the space physics over evolving planetary dynamos, and of the long-term influence on planetary atmospheres by stellar radiation and wind. Based on a series of NASA-funded summer schools for early-career researchers, this textbook is intended for students in physical sciences in later years of their university training and for beginning graduate students in fields of solar, stellar, (exo-)planetary, and planetary-system sciences. The book emphasizes universal processes from a perspective that draws attention to what provides Earth (and similar (exo-)planets) with a relatively stable setting in which life as we know it could thrive. The text includes 200 "Activities" in the form of exercises, explorations, literature readings, "what if" challenges, and group discussion topics; many of the Activities provide additional information complementing the main text. Solutions and discussions are included in an Appendix for a selection of the exercises.
title Principles Of Heliophysics: a textbook on the universal processes behind planetary habitability
topic Solar and Stellar Astrophysics
Earth and Planetary Astrophysics
url https://arxiv.org/abs/1910.14022