II.3. High Temperature Series Expansions (Quantum Method) -- II.4. High-Temperature Series Expansions (Classical Method) -- III. Applications for Different SemiconductorsMagnetic Materials -- III. 1. Semiconductors Spinels Material -- III.1.A. Mean Field Theory and Probability Law -- III.1.B. High Temperature Series Expansions -- III.1.C. Replica Method -- III. 2. Diluted Magnetic Semiconductors (DMS) -- III.3. Illuminates and Perovskites Materials -- III.4. Magnetic Properties and Finite Size Scaling in Nanomaterials -- IV. Discussions and Conclusions -- Annex 1 -- I. Calculation of the Coefficients a (n) -- II. Calculation of the Coefficients e (k) and d (k), for k = 1,2 -- Annex 2 -- References -- FAST DOMAIN WALL DYNAMICSIN THIN MAGNETIC WIRES (REVIEW) -- Abstract -- Introduction -- Theory of Domain Wall Propagation -- Amorphous Glass-Coated Microwires -- Single Domain Wall Propagation in AmorphousGlass- Coated Microwires -- Fast Domain Wall Propagation in Amorphous Glass CoatedMicrowires -- Acknowledgment -- References -- SUBSTITUTION- INDUCED STRUCTURAL,FERROELECTRIC AND MAGNETIC PHASETRANSITIONS IN BI1-XGDXFEO3 MULTIFERROICS -- Abstract -- 1. Introduction -- 2. Experimental -- 3. Results and Discussion -- 3.1. Crystal Structure -- 3.2. Local Ferroelectric Properties -- 3.3. Magnetic Properties -- 4. Conclusion -- Acknowledgements -- References -- PINNING EFFECT ON LOCAL MAGNETIZATIONIN FERRIMAGNETS A2FEMOO6 (A = BA, CA)EXAMINED BY TRANSMISSION ELECTRONMICROSCOPY (TEM) -- Abstract -- 1. Introduction -- Scope of this Paper -- 2. Experimental -- 3. Magnetic Domain Structure in Ba2FeMoO6 -- 4.Temperature |