Book contents
- Frontmatter
- Contents
- Preface
- 1 Perspective on heliophysics
- 2 Introduction to space storms and radiation
- 3 In-situ detection of energetic particles
- 4 Radiative signatures of energetic particles
- 5 Observations of solar and stellar eruptions, flares, and jets
- 6 Models of coronal mass ejections and flares
- 7 Shocks in heliophysics
- 8 Particle acceleration in shocks
- 9 Energetic particle transport
- 10 Energy conversion in planetary magnetospheres
- 11 Energization of trapped particles
- 12 Flares, coronal mass ejections, and atmospheric responses
- 13 Energetic particles and manned spaceflight
- 14 Energetic particles and technology
- Appendix I Authors and editors
- List of illustrations
- List of tables
- References
- Index
- Plate section
Preface
Published online by Cambridge University Press: 05 April 2013
- Frontmatter
- Contents
- Preface
- 1 Perspective on heliophysics
- 2 Introduction to space storms and radiation
- 3 In-situ detection of energetic particles
- 4 Radiative signatures of energetic particles
- 5 Observations of solar and stellar eruptions, flares, and jets
- 6 Models of coronal mass ejections and flares
- 7 Shocks in heliophysics
- 8 Particle acceleration in shocks
- 9 Energetic particle transport
- 10 Energy conversion in planetary magnetospheres
- 11 Energization of trapped particles
- 12 Flares, coronal mass ejections, and atmospheric responses
- 13 Energetic particles and manned spaceflight
- 14 Energetic particles and technology
- Appendix I Authors and editors
- List of illustrations
- List of tables
- References
- Index
- Plate section
Summary
Over the past few centuries, our awareness of the couplings between the Sun's variability and the Earth's environment, and perhaps even its climate, has been advancing at an ever increasing rate. The Sun is a magnetically variable star and for planets with intrinsic magnetic fields, planets with atmospheres, or planets like Earth with both, there are profound consequences and impacts. Today, the successful increase in knowledge of the workings of the Sun's magnetic activity, the recognition of the many physical processes that couple the realm of the Sun to our galaxy, and the insights into the interaction of the solar wind and radiation with the Earth's magnetic field, atmosphere and climate system have tended to differentiate and isolate the solar heliospheric and geo-space sub-disciplines of the physics of the local cosmos. In 2001, the NASA Living With a Star (LWS) program was initiated to reverse that trend.
The recognition that there are many connections within the Sun–Earth systems approach has led to the development of an integrated strategic mission plan and a comprehensive research program encompassing all branches of solar, heliospheric, and space physics and aeronomy. In doing so, we have developed an interdisciplinary community to address this systems-science. This has raised awareness and appreciation of the research priorities and challenges among the LWS scientists and has led to observational and modeling capabilities that span traditional discipline boundaries. The successful initial integration of the LWS sub-disciplines, under the newly coined term “heliophysics”, needed to be expanded into the early education of scientists.
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- Chapter
- Information
- Heliophysics: Space Storms and Radiation: Causes and Effects , pp. ix - xiiPublisher: Cambridge University PressPrint publication year: 2010