Magnetic Solitons in Extended Ferromagnetic Nanosystems Based on Iron and Nickel: Quantum, Thermodynamic, and Structural Effects (SpringerBriefs in Materials)

Preface
Contents
1 Introduction
	References
2 Quantum Effects in a Domain Wall of Magnetic Stripe Domain with Kink-Type Solitons in the Form of Vertical Bloch Lines
	2.1 Fundamentals
	2.2 Effective Mass of a Vertical Bloch Line in a Domain Wall of Magnetic Stripe Domain
	2.3 Quantum Oscillations of a Pair of Unipolar Vertical Bloch Lines in a Domain Wall of Magnetic Stripe Domain
	2.4 Quantum Collision of Two Unipolar Vertical Bloch Lines in a Domain Wall of Magnetic Stripe Domain
	Summary
	References
3 Thermodynamic Properties of Cylindrical Ferromagnetic Nanowire with a “Kink”-Type Soliton in the Form of Transverse Domain Wall
	3.1 Fundamentals
	3.2 Theoretical Formalism for Determining Thermodynamic Characteristics of Cylindrical Ferromagnetic Nanowire, Caused by Thermal Motion of Transverse Domain Wall
	3.3 Evaluation of the Effect of Thermal Motion of a Transverse Domain Wall on Entropy and Heat Capacity of Nanowires of Different Chemical Compositions (Ferrite-Garnet, Nickel, Iron)
	3.4 Physical Mechanisms of Increasing Effect of Thermal Motion of a Transverse Domain Wall on Entropy and Heat Capacity of the Component Subsystems of Nickel and Iron Nanowires
	Summary
	References
4 Magnetocaloric Effect in Cylindrical Ferromagnetic Nanowire with a “Kink”-Type Soliton in the Form of Transverse Domain Wall
	4.1 Fundamentals
	4.2 Effect of Weak External Magnetic Field on Entropy of Cylindrical Ferromagnetic Nanowire with Transverse Domain Wall
	4.3 Evaluation of Magnetocaloric Effect in Cylindrical Nickel and Iron Nanowires with Transverse Domain Wall
	Summary
	References
5 Cylindrical Ferromagnetic Nanowire with a Point Soliton in the Form of a Bloch Point
	5.1 Fundamentals
	5.2 Magnetic Structure of a Bloch Point Around the Center of Its Singularity
	5.3 Criterion for the Formation of Domain Wall with a Bloch Point
	Summary
	References