Multi-Scale Physics in Coronal Heating and Solar Wind Acceleration

Inhaltsverzeichnis


UVCS Observations of Temperature and Velocity Profiles in Coronal Holes.- Helios: Evolution of Distribution Functions 0.3-1 AU.- Sources of Solar Wind at Solar Minimum: Constraints from Composition Data.- SUMER Observations of Coronal-Hole Temperatures.- Recent Observations of Plasma and Alfvenic Wave Energy Injection at the Base of the Fast Solar Wind.- Solar Wind Models from the Chromosphere to 1 AU.- Semiempirical Models of the Slow and Fast Solar Wind.- Self-Consistent Models of the Solar Wind.- Alfven Waves: Coherent Phenomena in Coronal Loops and Open-Field Regions.- The Structure and Dynamics of the Corona-Heliosphere Connection.- Magnetic Reconnection in the Solar Wind.- Interchange Reconnection: Remote Sensing of Solar Signature and Role in Heliospheric Magnetic Flux Budget.- On the Role of Interchange Reconnection in the Generation of the Slow Solar Wind.- Ion Heating and Acceleration During Magnetic Reconnection Relevant to the Corona.- Power Law Distributions of Suprathermal Ions in the Quiet Solar Wind.- Three-Dimensional Simulations of Magnetic Reconnection With or Without Velocity Shears.- Emerging Parameter Space Map of Magnetic Reconnection in Collisional and Kinetic Regimes.- Magnetic Reconnection for Coronal Conditions: Reconnection Rates, Secondary Islands and Onset.- Kinetic Models for Whistler Wave Scattering of Electrons in the Solar Corona and Wind.- Solar Wind Electron Transport: Interplanetary Electric Field and Heat Conduction.- Anisotropy in Space Plasma Turbulence: Solar Wind Observations.- Scalings, Cascade and Intermittency in Solar Wind Turbulence.- Interactions of Alfven-Cyclotron Waves with Ions in the Solar Wind.- Ion Kinetics in the Solar Wind: Coupling Global Expansion to Local Microphysics.- Nonmodal Linear Theory for Space Plasmas.

Band 38 SALE
Space Sciences Series of ISSI Band 38

Multi-Scale Physics in Coronal Heating and Solar Wind Acceleration

From the Sun into the Inner Heliosphere

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Beschreibung


This volume explores the cross-linkages between the kinetic processes and macroscopic phenomena in the solar atmosphere, which are at the heart of our current understanding of the heating of the closed and open corona and the acceleration of the solar wind. The focus lies on novel data, on theoretical models that have observable consequences through remote sensing, and on near-solar and inner-heliosphere observations, such as anticipated by the upcoming Solar Orbiter and Solar Probe missions, which are currently developed by the international community.

This volume is aimed at students and researchers active in solar physics and space science.

Previously published in Space Science Reviews journal, Vol. 172, Nos. 1-4, 2012.

David Burgess is a professor of mathematics and astronomy at Queen Mary University of London. His research interests include space and astrophysical plasma physics; shocks and turbulence in collisionless plasmas; and large scale, highly parallel plasma simulation. He is the co-investigator on three instruments on the ESA Solar Orbiter mission.

James Drake is a professor of physics and the University of Maryland College Park. He earned his bachelors degree from UCLA and remained at UCLA to complete his doctorate in theoretical physics in 1975. After completing his doctorate, Professor Drake remained at UCLA for a brief time as a post-doctoral scholar and then moved to the University of Maryland first as a post-doctoral scholar and then as a member of the teaching faculty in the Department of Physics and the Institute for Physical Science and Technology. Professor Drake has worked on a very broad range of topics in the general area of theoretical plasma physics using both analytical and numerical techniques. His work has applications spanning a variety of physical systems, including the solar corona, the earth's magnetosphere and ionosphere, magnetically confined plasma, and the interaction of intense lasers with plasma. His present focus is on magnetic reconnection with space physics applications and turbulence and transport with applications to the magnetic fusion program. In recognition for his contributions to the field of plasma physics, he was granted fellowship status in the American Physical Society and was awarded a Humboldt Senior Scientist Research Award.

Dr. Rudolf von Steiger is the director of the International Space Science Institute in Bern, Switzerland. His research is primarily about the  solar wind, mainly using data from SWICS on Ulysses. He also lectures at the University of Bern, where he earned his PhD in experimental physics in 1988.

Dr. Marco Velli has taught mechanics, electromagnetism, astrophysics and plasma physics courses at the University of Florence; mentored 7 students for their Laurea Thesis in Florence; and directed 5 PhD theses at the University of Florence and 2 at the University of Paris XI Orsay. He has been a member of peer review committees for NASA research and payload proposals as well as for ESA, and a member of the science definition team for Solar Orbiter (2003). He is presently a member of the Solar Probe science and technology definition team, where he is responsible for drafting the Scientific Objectives and requirements. Dr. Velli was chair and main scientific editor for the international conference Solar Wind 10, in Pisa, June 2002. He has published over seventy peer-reviewed research papers involving many collaborators both in Italy and abroad, as well as invited papers and lecture notes. He earned his PhD in Physics from the University of Pisa in 1985.

Thomas Zurbuchen is a professor in space science and aerospace engineering and the Associate Dean for Entrepreneurship at the University of Michigan. He earned his PhD from the University of Bern and his research interests include solar and heliospheric physics and experimental space research.

Details

Einband

Gebundene Ausgabe

Erscheinungsdatum

09.01.2013

Herausgeber

David Burgess + weitere

Verlag

Springer US

Seitenzahl

409

Beschreibung

Details

Einband

Gebundene Ausgabe

Erscheinungsdatum

09.01.2013

Herausgeber

Verlag

Springer US

Seitenzahl

409

Maße (L/B/H)

24,1/16/2,7 cm

Gewicht

8204 g

Auflage

2013

Sprache

Englisch

ISBN

978-1-4614-6460-0

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  • Multi-Scale Physics in Coronal Heating and Solar Wind Acceleration

  • UVCS Observations of Temperature and Velocity Profiles in Coronal Holes.- Helios: Evolution of Distribution Functions 0.3-1 AU.- Sources of Solar Wind at Solar Minimum: Constraints from Composition Data.- SUMER Observations of Coronal-Hole Temperatures.- Recent Observations of Plasma and Alfvenic Wave Energy Injection at the Base of the Fast Solar Wind.- Solar Wind Models from the Chromosphere to 1 AU.- Semiempirical Models of the Slow and Fast Solar Wind.- Self-Consistent Models of the Solar Wind.- Alfven Waves: Coherent Phenomena in Coronal Loops and Open-Field Regions.- The Structure and Dynamics of the Corona-Heliosphere Connection.- Magnetic Reconnection in the Solar Wind.- Interchange Reconnection: Remote Sensing of Solar Signature and Role in Heliospheric Magnetic Flux Budget.- On the Role of Interchange Reconnection in the Generation of the Slow Solar Wind.- Ion Heating and Acceleration During Magnetic Reconnection Relevant to the Corona.- Power Law Distributions of Suprathermal Ions in the Quiet Solar Wind.- Three-Dimensional Simulations of Magnetic Reconnection With or Without Velocity Shears.- Emerging Parameter Space Map of Magnetic Reconnection in Collisional and Kinetic Regimes.- Magnetic Reconnection for Coronal Conditions: Reconnection Rates, Secondary Islands and Onset.- Kinetic Models for Whistler Wave Scattering of Electrons in the Solar Corona and Wind.- Solar Wind Electron Transport: Interplanetary Electric Field and Heat Conduction.- Anisotropy in Space Plasma Turbulence: Solar Wind Observations.- Scalings, Cascade and Intermittency in Solar Wind Turbulence.- Interactions of Alfven-Cyclotron Waves with Ions in the Solar Wind.- Ion Kinetics in the Solar Wind: Coupling Global Expansion to Local Microphysics.- Nonmodal Linear Theory for Space Plasmas.