The subject of this volume is to present both the numerical and graphical data on the magnetic and electrical properties of magnetic metallic multilayers which are composed with stacking up of double layers of thin films, one layer of which is at least the magnetic layer of 3d metals (M) or rare earth ones (R). Furthermore the data of the trilayers which have a top layer and bottom one of magnetic elements are also presented.
Author(s): Yoshiyuki Kawazoe, Ryunosuke Note
Publisher: Springer
Year: 2022
Language: English
Pages: 1062
City: Berlin
Preface
Contents
Introduction
General Remarks
Categories of Magnetic Properties
List of Abbreviations
List of Symbols
ScFe
References
TiFe
Magnetization M vs. Magnetic Field H
Saturation Magnetization Ms vs. Thickness t
Saturation Magnetization Ms vs. Annealing Temperature Tann
Anisotropy Field HA vs. Thickness t
Effective Anisotropy Constant Keff vs. Thickness t
Coercivity Hc vs. Thickness t
Coercivity Hc vs. Annealing Temperature Tann
Saturation Field Hs vs. Thickness t
Resistivity R vs. Thickness t
Magnetoresistane MR vs. Thickness t
Hall Coefficient RH and Hall Resistivity rhoH vs. Thickness t
Symbols and Abbreviations
References
TiCo
Magnetization M vs. Magnetic Field H
Saturation Magnetization Ms vs. Thickness t
Anisotropy Field HA vs. Thickness t
Coercivity Hc vs. Thickness t
Exchange Energy J vs. Temperature T
Symbols and Abbreviations
References
TiNi
Saturation Magnetization Ms vs. Thickness t
Saturation Magnetization Ms vs. Annealing Temperature Tann
Anisotropy Field HA vs. Thickness t
Effective Anisotropy Constant Keff vs. Thickness t
Coercivity Hc vs. Annealing Temperature Tann
Symbols and Abbreviations
References
VCr
References
VMn
References
VFe
Magnetization M Versus Magnetic Field H
Saturation Magnetization Ms Versus Temperature T
Saturation Magnetization Ms Versus Thickness t
Remanence Mr Versus Thickness t
Anisotropy Field HA Versus Thickness t
Effective Anisotropic Constant Keff Versus Temperature T
Effective Anisotropic Constant Keff Versus Thickness t
Coercivity Hc Versus Thickness t
Exchange Energy J Versus Thickness t
Saturation Field Hs Versus Thickness t
Others
Resistivity R Versus Magnetic Field H
Resistivity R Versus Thickness t
Magnetoresistance MR Versus Thickness t
Symbols and Abbreviations
References
VCo
Saturation Magnetization Ms Versus Temperature T
Saturation Magnetization Ms Versus Thickness T
Remanence Mr Versus Thickness T
Effective Anisotropic Constant Keff Versus Thickness T
Symbols and Abbreviations
References
VNi
Saturation Magnetization Ms vs. Temperature T
Saturation Magnetization Ms vs. Thickness t
Curie Temperature TC and Néel Temperature TN vs. Thickness t
1.6.3 Anisotropy Field HA vs. Thickness t
Symbols and Abbreviations
References
VCu
References
CrMn
References
CrFe
Magnetization MVersus Magnetic Field H
Magnetization MVersus Temperature T
Magnetization MVersus Thickness t
Saturation Magnetization Ms Versus Temperature T
Saturation Magnetization Ms Versus Thickness t
Saturation Magnetization Ms Versus Annealing Temperature Tann
Remanence Mr Versus Temperature T
Remanence Mr Versus Annealing Temperature Tann
Curie Temrature TC, Néel Temperature TN and Transition Temperature Ttr Versus Thickness t, Magnetic Phase Diagram
Permeability μ and Susceptibility χ Versus Magnetic FieldH
Permeability μ and Susceptibility χ Versus Thickness t
Anisotropy Field HA Versus Magnetic Field H
Anisotropy Field HA Versus Thickness t
Surface Anisotropy Field Ks Versus Annealing Temperature Tann
Effective Anisotropic Constant Keff Versus Temperure T
Effective Anisotropy Constant Keff Versus Thickness t
Coercivity Hc Versus Temperature T
Exchange Energy JVersus Temperure T
Exchange Energy JVersus Thickness t
Exchange Field HJ Versus Temperature T
Exchange Field HJ Versus Thickness t
Saturation Field Hs Versus Temperature T
Saturation Field Hs Versus Thickness t
Saturation Field Hs Versus Annealing Temperature Tann
Others
Resistiviy RVersus Magnetic Field H
Resistiviy RVersus Temperature T
Resistivity RVersus Thickness t
Resistivity RVersus Annealing Temperature Tann
Magnetoresistance MR Versus Magnetic Field H
Magnetoresistance MR Versus Temperature T
Magnetoresistance MR Versus Thickness t
Magnetoresistance MR Versus Annealing Temperature Tann
Hall Coefficient RH and Hall Resistivity ρH Versus Magnetic Field H
Hall Coefficient RH and Hall Resistivity ρH Versus Temperature T
Hall Coefficient RH and Hall Resistivity ρH Versus Thickness t
Hall Coefficient RH and Hall Resistivity ρH Versus Annealing Temperature Tann
Others
Symbols and Abbreviations
References
CrCo
Magnetization M Versus Magnetic Field H
Saturation Magnetization Ms Versus Thickness T
Remanence Mr Versus Thickness T
Effective Anisotropic Constant Keff Versus Thickness T
Coercivity Hc Versus Thickness T
Exchange Energy J Versus Thickness T
Saturation Field Hs Versus Thickness T
Others
Magnetoresistance MR Versus Magnetic Field H
Magnetoresistance MR Versus Thickness T
Symbols and Abbreviations
References
CrNi
Magnetization M Versus Magnetic Field H
Magnetization M Versus Temperature T
Magnetization M Versus Thickness T
Saturation Magnetization Ms Versus Temperature T
Saturation Magnetization Ms Versus Thickness T
Curie Temperature TC and Néel Temperature TN Versus Thickness T
Anisotropy Field HA Versus Thickness T
Effective Anisotropic Constant Keff Versus Thickness T
Symbols and Abbreviations
References
CrCu
Resistivity Rvs. Temperature T
Resistivity Rvs. Thickness t
Symbols and Abbreviations
References
FeMn
Magnetization M Versus Magnetic Field H
Saturation Magnetization Ms Versus Thickness T
Anisotropy Field HA Versus Thickness T
Corcivity Hc Versus Thickness T
Exchange Energy J Versus Thickness T
Exchange Field HJ Versus Thickness T
Saturation Field Hs Versus Thickness T
Magnetoresistance MR Versus Thickness T
Symbols and Abbreviations
References
MnCo
Magnetization M Versus Magnetic Field H
Magnetization M Versus Thickness T
Saturation Magnetization Ms Versus Thickness T
Remanence Mr Versus Thickness T
Anisotropy Field HA Versus Thickness T
Effective Anisotropic Constant Keff Versus Thickness T
Coercivity Hc Versus Thickness T
Exchange Energy J Versus Temperature T
Exchange Field HJ Versus Thickness T
Saturation Field Hs Versus Thickness T
Others
Magnetoresistance MR Versus Magnetic Field H
Symbols and Abbreviations
References
MnNi
Magnetization M Versus Magnetic Field H
Magnetization M Versus Thickness T
Saturation Magnetization Ms Versus Thickness T
Coercivity Hc Versus Thickness T
Exchange Field HJ Versus Thickness T
Symbols and Abbreviations
References
MnCu
Resistivity R Versus Temperature T
Resistivity R Versus Thickness T
Symbols and Abbreviations
References
FeCo
Magnetization M Versus Magnetic Field H
Saturation Magnetization Ms Versus Thickness T
Saturation Magnetization Ms Versus Annealing Tann
Remanence Mr Versus Thickness T
Anisotropy Field HA Versus Thickness T
Effective Anisotropy Constant Keff Versus Thickness T
Coercivity Hc Versus Thickness T
Coercivity Hc Versus Annealing Temperature Tann
Others
Symbols and Abbreviations
References
FeNi
Magnetization M Versus Magnetic Field H
Saturation Magnetization Ms Versus Thickness T
Remanence Mr Versus Thickness T
Anisotropy Field HA Versus Thickness T
Anisotropy Field HA Versus Annealing Temperature Tann
Coercivity Hc Versus Thickness T
Coercivity Hc Versus Annealing Temperature Tann
Exchange Energy J Versus Thickness T
Others
Resistivity R Versus Magnetic Field H
Magnetoresistance MR Versus Magnetic Field H
Magnetoresistance MR Versus Temperature T
Magnetoresistance MR Versus Thickness T
Symbols and Abbreviations
References
FeCu
Magnetization MVersus Magnetic Field H
Magnetization MVersus Temperature T
Saturation Magnetization Ms Versus Temperature T
Saturation Magnetization Ms Versus Thickness T
Curie Temperature TC and Néel Temperature TN Versus Thickness T
Anisotropy Field HA Versus Thickness T
Effective Anisotropic Constant Keff Versus Thickness T
Coercivity Hc Versus Thickness T
Exchange Energy JVersus Thickness T
Exchange Field HJ Versus Thickness T
Others
Resistivity RVersus Thickness T
Magnetoresistance MR Versus Magnetic Field H
Magnetoresistance MR Versus Thickness T
Magnetoresistance MR Versus Annealing Temperature Tann
Thermopower Sand Thermal Conductivity κ Versus Magnetic Field H
Thermopower Sand Thermal Conductivity κ Versus Temperature T
Others
Symbols and Abbreviations
References
CoNi
Magnetization M Versus Magnetic Field H
Saturation Magnetization Ms Versus Thickness T
Remanence Mr Versus Thickness T
Curie Temperature TC and Néel Temperature TN Versus Thickness T
Volume Anisotropic Constant Kv Versus Thickness T
Surface Anisotropic Constant Ks Versus Temperature T
Effective Anisotropic Constant Keff Versus Thickness T
Effective Anisotropic Constant Keff Versus Annealing Temperature Tann
Coercivity Hc Versus Thickness T
Coercivity Hc Versus Annealing Temperature Tann
Saturation Field Hs Versus Thickness T
Resistivity R Versus. Magnetic Field H
Resistivity R Versus Thickness T
Magnetoresistance MR Versus Magnetic Field H
Magnetoresistance MR Versus Thickness T
Hall Coefficient RH and Hall Resistivity rhoH Versus Magnetic Field H
Hall Coefficient RH and Hall Resistivity rhoH Versus Thickness T
Symbols and Abbreviations
References
CoCu
Magnetization M Versus Magnetic Field H
Magnetization M Versus Temperature T
Magnetization M Versus Thickness T
Magnetization M Versus Annealing Temperature Tann
Saturation Magnetization Ms Versus Temperature T
Saturation Magnetization Ms Versus Thickness T
Saturation Magnetization Ms Versus Annealing Temperature Tann
Remanence Mr Versus Temperature T
Remanence Mr Versus Thickness T
Remanence Mr Versus Annealing Temperature Tann
Curie Temperature TC and Néel Temperature TN Versus Magnetic Field H
Curie Temperature TC and Néel Temperature TN Versus Thickness T
Anisotropy Field HA Versus Thickness T
Anisotropy Field HA Versus Annealing Temperature Tann
Volume Anisotropic Constant Kv Versus Annealing Temperature Tann
Surface Anisotropic Constant Ks Versus Annealing Temperature Tann
Effective Anisotropic Constant Keff Versus Temperature T
Effective Anisotropic Constant Keff Versus Thickness T
Effective Anisotropic Constant Keff Versus Annealing Temperature Tann
Coercivity Hc Versus Temperature T
Coercivity Hc Versus Thickness T
Coercivity Hc Versus Annealing Temperature Tann
Exchange Energy J Versus Temperature T
Exchange Energy J Versus Thickness T
Exchange Energy J Versus Annealing Temperature Tann
Exchange Field HJ Versus Thickness T
Saturation Field Hs Versus Thickness T
Saturation Field Hs Versus Annealing Temperature Tann
Others
Resistivity R Versus Magnetic Field H
Resistivity R Versus Temperature T
Resistivity R Versus Thickness T
Resistivity R Versus Annealing Temperature Tann
Magnetoresistance MR Versus Magnetic Field H
Magnetoresistance MR Versus Temperature T
Magnetoresistance MR Versus Thickness T
Magnetoresistance MR Versus Annealing Temperature Tann
Hall Coefficient RH and Hall Resistivity rhoH Versus Magnetic Field H
Thermopower S and Thermal Conductivity kappa Versus Magnetic Field H
Thermopower S and Thermal Conductivity kappa Versus Temperature T
Thermopower S and Thermal Conductivity kappa Versus Thickness T
Others
Symbols and Abbreviations
References
NiCu
Magnetization M Versus Magnetic Field H
Magnetization M Versus Thickness T
Saturation Magnetization Ms Versus Temperature T
Saturation Magnetization Ms Versus Thickness T
Remanence Mr Versus Thickness T
Curie Temperature TC and Néel Temperature TN Versus Thickness T
Anisotropy Field HA Versus Thickness T
Effective Anisotropic Constant Keff Versus Thickness T
Coercivity Hc Versus Temperature T
Coercivity Hc Versus Thickness T
Exchange Field HJ Versus Temperature T
Exchange Field HJ Versus Thickness T
Saturation Field Hs Versus Thickness T
Saturation Field Hs Versus Thickness T
Resistivity R Versus Magnetic Field H
Resistivity R Versus Temperature T
Resistivity R Versus Thickness T
Magnetoresistance MR Versus Magnetic Field H
Magnetoresistance MR Versus Thickness T
Hall Coefficient RH and Hall Resistivity rhoH Versus Magnetic Field H
Hall Coefficient RH and Hall Resistivity rhoH Versus Thickness T
Others
Symbols and Abbreviations
References
List of Magnetic Multilayers Collected1. [Ml/Mm]n, 2. [Ml/Xm]n, 3. [Ml/Rm]n, 4. [Rl/Xm]n and 5. [Rl/Rm]n, where M and M are 3d...