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Ferromagnetism. --- Ferromagnetic materials. --- Ferromagnetism --- Magnetic materials --- Magnetism

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Ferromagnetic inhomogeneities along the track serve as landmarks. With these, each track section in the track network can be uniquely identified. In addition to non-contact speed determination, this also provides a track-selective method for determining the absolute position of the rail vehicle.

Mechanical engineering & materials --- bordautonome Lokalisierung --- berührungslose Geschwindigkeitsmessung --- ferromagnetische Inhomogenitäten --- ferromagnetische Signaturen --- Schienenfahrzeug --- high accuracy velocity and position estimation --- ferromagnetic inhomogeneities --- ferromagnetic signatures --- rail vehicle

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Multiferroic shape-memory alloys that exhibit both ferroelastic and ferromagnetic properties have recently attracted much attention. They belong to the family of so-called ""smart materials"" and are future-generation materials that are likely to be useful in cutting-edge technologies. Apart from the theoretical challenge of understanding their fascinating properties, the quest to harness them for practical use is also attracting many scientists and engineers from all over the world. This compilation comprises peer-reviewed papers, categorized into: I. Sample Preparation, II Thermal Treatments

Magnetic materials. --- Ferromagnetic materials --- Ferromagnetism --- Magnetic materials --- Materials --- Shape memory alloys

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Ferroics is the generic name given to the study of ferromagnets, ferroelectrics, and ferroelastics. The basis of this study is to understand the large changes in physical characteristics that occur over a very narrow temperature range. In recent years, a new class of ferroic materials has been attracting increased interest. These multiferroics exhibit more than one ferroic property simultaneously in a single phase. The present volume: ""Ferroic Materials: Synthesis and Applications"" has ten Chapters, spread over areas as diverse as Magnetic Oxide Nanomaterials, Ferrites Synthesis, Hexaferrite

Ferroelectricity --- Ferromagnetic materials --- Ferroelectric effect --- Seignette-electricity --- Polarization (Electricity) --- Ferromagnetism --- Magnetic materials

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Some ferromagnetic materials with localized magnetic moments have become a hot topic in modern solid-state physics because of their potential applications, e.g. in spintronic devices. The magnetic systems of interest comprise diluted magnetic semiconductors and half-metallic ferromagnets. Like conventional concentrated local-moment systems, they are characterized by an exchange interaction between localized magnetic moments and quasi-free charge carriers. The current research on local-moment ferromagnetism is reviewed in a tutorial style by leading experts in this field. Experimentalists present the latest approaches to characterize the unique material properties, and theoreticians propose definitive ideas to explain the observed phenomena. Students and researches alike will benefit from this status report.

Ferromagnetism. --- Diluted magnetic semiconductors. --- Ferromagnetic materials. --- Matériaux ferromagnétiques --- Ferromagnetism --- Diluted magnetic semiconductors --- Ferromagnetic materials --- Electricity & Magnetism --- Physics --- Physical Sciences & Mathematics --- Semimagnetic semiconductors --- Physics. --- Magnetism. --- Magnetic materials. --- Engineering. --- Magnetism, Magnetic Materials. --- Engineering, general. --- Construction --- Industrial arts --- Technology --- Mathematical physics --- Electricity --- Magnetics --- Materials