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Table of Contents
Foreword
Part I: Introduction
Magnetic Fields at Largest Universal Strengths: Overview
Physics in Very Strong Magnetic Fields: An Introduction
Part II: Magnetic Fields in Stars
Observations of Strong Magnetic Fields in Nondegenerate Stars
Magnetic Field Generation in Stars
Magnetic White Dwarfs
Part III: Neutron Stars
Neutron Stars: Thermal Emitters
Radio Pulsars
Neutron Stars: Cooling and Transport
Magnetic Fields of Neutron Stars in X-ray Binaries
Magnetars: Properties, Origin and Evolution
Part IV: Accretion, Winds, Jets
Accretion and Outflows from Magnetized Stars
Pulsar Wind Nebulae
Disks and Jets: Gravity, Rotation and Magnetic Fields
Part V: Physical Processes
Gamma Ray Bursts As Sources of Strong Magnetic Fields
Relativistic Shocks Particle Acceleration and Magnetization
Relativistic Magnetic Reconnection and Its Astrophysical Applications.
Part I: Introduction
Magnetic Fields at Largest Universal Strengths: Overview
Physics in Very Strong Magnetic Fields: An Introduction
Part II: Magnetic Fields in Stars
Observations of Strong Magnetic Fields in Nondegenerate Stars
Magnetic Field Generation in Stars
Magnetic White Dwarfs
Part III: Neutron Stars
Neutron Stars: Thermal Emitters
Radio Pulsars
Neutron Stars: Cooling and Transport
Magnetic Fields of Neutron Stars in X-ray Binaries
Magnetars: Properties, Origin and Evolution
Part IV: Accretion, Winds, Jets
Accretion and Outflows from Magnetized Stars
Pulsar Wind Nebulae
Disks and Jets: Gravity, Rotation and Magnetic Fields
Part V: Physical Processes
Gamma Ray Bursts As Sources of Strong Magnetic Fields
Relativistic Shocks Particle Acceleration and Magnetization
Relativistic Magnetic Reconnection and Its Astrophysical Applications.