Magnetism and Superconductivity in Low-Dimensional Systems : Utilization in Future Applications.

Intro -- MAGNETISM AND SUPERCONDUCTIVITY IN LOW-DIMENSIONAL SYSTEMS: UTILIZATION IN FUTURE APPLICATIONS -- NOTICE TO THE READER -- CONTENTS -- PREFACE -- MAGNETIC PHENOMENA IN ZERO-DIMENSIONAL TRANSITION-METAL SPIN-CLUSTERS -- Abstract -- 1. Introduction -- 2. Synthesis of TMSCs: Synthetic Routes and Methodologies -- 2.1. Self-assembly -- 2.2. Synthetic Strategies towards Targeted Products -- 3. Magnetic Phenomena -- 3.1. Magnetic Interactions in TMSCs -- 3.2. Single-Molecule Magnetism and Quantum Tunneling of the Magnetization -- 3.3. Spin-crossover in TMSCs -- 4. Potential Applications for TMSCs -- 4.1. Elements for Molecular Memories -- 4.2. Quantum Computing -- 4.3. Magnetic Refrigeration -- 4.4. MRI Contrast Agents -- 5. Conclusions and Perspectives -- Acknowledgments -- References -- NUCLEAR MAGNETIC RESONANCE AS A PROBE OF SPIN DYNAMICS IN SINGLE MOLECULE MAGNETS -- Abstract -- 1. Introduction -- 2. Magnetic Properties of the Molecular Clusters Investigated -- 3. Experimental Aspects of NMR -- 3.1. Line Shape Measurements -- 3.2. Spin-Spin Relaxation Time T2 and Signal Intensity -- 3.3. Spin-Lattice Relaxation Time T1 -- 4. Static and Dynamic Properties of Single Molecule Magnets -- 4.1. Local Magnetic Susceptibility and Spin Freezing Phenomena as Probed by 1H NMR Line Shape Measurements -- 4.2. NMR as a Probe of Slow Fluctuations of the Magnetization in SMMs -- 5. Long Range Magnetic Ordering in the High Spin Molecular Crystal of Fe19 -- 6. Conclusion -- Acknowledgements -- References -- SUPERCONDUCTIVITY AND MAGNETIC PROPERTIES OF MULTIFILAMENTARY Cu-Nb MICRO/NANOCOMPOSITE WIRES -- 1. Introduction -- 2. Fabrication Processes of Cu-Nb Multifilamentary Wires -- 3. Thermal Instabilities in Cu-Nb MultifilamentaryWires -- 4. Magnetic Properties of Annealed Cu-Nb MicrocompositeWires.

5. Magnetic Properties of Cu-Nb Nanofilamentary Wires Processed by Severe Plastic Deformation -- 6. Applications -- 6.1. Cu-Nb Microcomposites as Reinforcement Material in High-Strength Nb3Sn Superconducting Wires -- 6.2. Cu-Nb Nanocomposite Wires as Ultra-high-Strength Conductors for High Pulsed Field Magnets -- Acknowledgments -- References -- TAILORING THE MAGNETIC PROPERTIES OF L10-STRUCTURED THIN FILMS FOR USE IN HIGH DENSITY MAGNETIC RECORDING MEDIA -- Abstract -- 1. Introduction -- 2. Preparation of Samples and Experimental Details -- 3. Si(001)/Ag/CoPt Bilayers -- 3.1. Magnetization and Crystallographic Data -- 3.2. HIRBS Data -- 3.3. Concluding Remarks for the Si(001)/Ag/CoPt Bilayers -- 4. Si(001)/Cu/CoPt Bilayers -- 4.1. Magnetization and Crystallographic Data -- 4.2. Correlation between Coercivity and Anisotropy -- 4.3. Concluding Remarks for the Si(001)/Cu/CoPt Bilayers -- 5. SiO/FePt Momolayers and SiO/Cu/FePt Bilayers -- 5.1. Magnetization and Crystallographic Data -- 5.2. Concluding Remarks for the SiO/FePt Momolayers and SiO/Cu/FePt Bi layers -- 6. Conclusion -- 6.1. Summary of All the Results Presented in This Chapter -- 6.2. Connection to Applications: Magnetic Recording -- Acknowledgments -- References -- INDEX.

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