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Intro; Preface; Contents; Contributors; Part I From Single Spins to Complex Spin Textures; 1 Magnetic Spectroscopy of Individual Atoms, Chains and Nanostructures; 1.1 Introduction; 1.2 Single Atom Magnetometry; 1.2.1 SPSTS on Individual Atoms; 1.2.2 Single-Atom Magnetization Curves; 1.2.3 Magnetic Field Dependent Inelastic STS; 1.3 Measurement of the RKKY Interaction; 1.3.1 RKKY Interaction Between a Magnetic Layer and an Atom; 1.3.2 RKKY Interaction Between two Atoms; 1.3.3 Dzyaloshinskii-Moriya Contribution to the RKKY Interaction; 1.4 Dilute Magnetic Chains and Arrays
1.5 Logic Gates and Magnetic Memories1.6 Conclusions; References; 2 Scanning Tunneling Spectroscopies of Magnetic Atoms, Clusters, and Molecules; 2.1 Tuning the Kondo Effect on the Single-Atom Scale; 2.1.1 Co Atoms on a Quantum Well System; 2.1.2 Kondo Effect in CoCun Clusters; 2.1.3 Two-Site Kondo Effect in Atomic Chains; 2.1.4 Spectroscopy of the Kondo Resonance at Contact; 2.2 Magnetic Molecules; 2.3 Graphene on Ir(111); 2.4 Ballistic Anisotropic Magnetoresistance of Single Atom Contacts; 2.5 Shot Noise Spectroscopy on Single Magnetic Atoms on Au(111); References
3 Electronic Structure and Magnetism of Correlated Nanosystems3.1 Electron Correlations in Magnetic Nanosystems; 3.2 Realistic Impurity Models for Correlated Electron Systems; 3.3 Multiorbital Quantum Impurity Solvers; 3.4 Transition Metal Impurities on Metallic Substrates; 3.5 Hund's Impurities on Substrates; References; 4 Local Physical Properties of Magnetic Molecules; 4.1 High-Resolution Atomic Force Microscopy; 4.2 Utilizing the Smoluchowski Effect to Probe Surface Charges and Dipole Moments of Molecules with Metallic Tips; 4.3 Magnetic Exchange Force Microscopy and Spectroscopy
4.4 Adsorption Geometry of Co-Salen4.5 Evidence for a Magnetic Coupling Between Co-Salen and NiO(001); References; 5 Magnetic Properties of One-Dimensional Stacked Metal Complexes; 5.1 Introduction; 5.2 Towards Molecular Spintronics; 5.3 Paramagnetic 3d-Transition-Metal Complexes with Terdentate Pyridine-Diimine Ligands; 5.3.1 Synthesis of Novel Mono-, Di- and Trinuclear Iron(II) Complexes; 5.3.2 Electronic and Magnetic Properties; 5.3.3 Molecules on Surfaces; 5.4 One-Dimensional Stacked Metallocenes; 5.4.1 Different Metal Centers; 5.4.2 More Stacking; References
6 Designing and Understanding Building Blocks for Molecular Spintronics6.1 Introduction; 6.2 Local Pathways in Exchange Spin Coupling; 6.2.1 Transferring a Green's Function Approach to Heisenberg Coupling Constants J from Solid State Physics to Quantum Chemistry; 6.2.2 Decomposing J into Local Contributions; 6.2.3 Application to Bismetallocenes: Through-Space Versus Through-Bond Pathways; 6.3 Chemically Controlling Spin Coupling; 6.3.1 Photoswitchable Spin Coupling: Dithienylethene-Linked Biscobaltocenes; 6.3.2 Redox-Switchable Spin Coupling: Ferrocene as Bridging Ligand
1.5 Logic Gates and Magnetic Memories1.6 Conclusions; References; 2 Scanning Tunneling Spectroscopies of Magnetic Atoms, Clusters, and Molecules; 2.1 Tuning the Kondo Effect on the Single-Atom Scale; 2.1.1 Co Atoms on a Quantum Well System; 2.1.2 Kondo Effect in CoCun Clusters; 2.1.3 Two-Site Kondo Effect in Atomic Chains; 2.1.4 Spectroscopy of the Kondo Resonance at Contact; 2.2 Magnetic Molecules; 2.3 Graphene on Ir(111); 2.4 Ballistic Anisotropic Magnetoresistance of Single Atom Contacts; 2.5 Shot Noise Spectroscopy on Single Magnetic Atoms on Au(111); References
3 Electronic Structure and Magnetism of Correlated Nanosystems3.1 Electron Correlations in Magnetic Nanosystems; 3.2 Realistic Impurity Models for Correlated Electron Systems; 3.3 Multiorbital Quantum Impurity Solvers; 3.4 Transition Metal Impurities on Metallic Substrates; 3.5 Hund's Impurities on Substrates; References; 4 Local Physical Properties of Magnetic Molecules; 4.1 High-Resolution Atomic Force Microscopy; 4.2 Utilizing the Smoluchowski Effect to Probe Surface Charges and Dipole Moments of Molecules with Metallic Tips; 4.3 Magnetic Exchange Force Microscopy and Spectroscopy
4.4 Adsorption Geometry of Co-Salen4.5 Evidence for a Magnetic Coupling Between Co-Salen and NiO(001); References; 5 Magnetic Properties of One-Dimensional Stacked Metal Complexes; 5.1 Introduction; 5.2 Towards Molecular Spintronics; 5.3 Paramagnetic 3d-Transition-Metal Complexes with Terdentate Pyridine-Diimine Ligands; 5.3.1 Synthesis of Novel Mono-, Di- and Trinuclear Iron(II) Complexes; 5.3.2 Electronic and Magnetic Properties; 5.3.3 Molecules on Surfaces; 5.4 One-Dimensional Stacked Metallocenes; 5.4.1 Different Metal Centers; 5.4.2 More Stacking; References
6 Designing and Understanding Building Blocks for Molecular Spintronics6.1 Introduction; 6.2 Local Pathways in Exchange Spin Coupling; 6.2.1 Transferring a Green's Function Approach to Heisenberg Coupling Constants J from Solid State Physics to Quantum Chemistry; 6.2.2 Decomposing J into Local Contributions; 6.2.3 Application to Bismetallocenes: Through-Space Versus Through-Bond Pathways; 6.3 Chemically Controlling Spin Coupling; 6.3.1 Photoswitchable Spin Coupling: Dithienylethene-Linked Biscobaltocenes; 6.3.2 Redox-Switchable Spin Coupling: Ferrocene as Bridging Ligand