Ferromagnetic Hybrid Nanostructure for Potential Clinical Applications - Rizal, Conrad
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This book presents the theory, design, fabrication, measurement, and characterization of ferromagnetic hybrid multilayers and granular alloys consisting of magnetic, non-magnetic, and dielectric material that are significant in the development of next generation state-of-the-art magnetic sensors. Topics on artificial generation of magnetic anisotropy through oblique angle deposition and induced strain are also covered. It also covers topics on nanocomposite material and high-magnetic-moment biocompatible alloys, artificially produced on polyimide, and considered useful for potential clinical…mehr

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Produktbeschreibung
This book presents the theory, design, fabrication, measurement, and characterization of ferromagnetic hybrid multilayers and granular alloys consisting of magnetic, non-magnetic, and dielectric material that are significant in the development of next generation state-of-the-art magnetic sensors. Topics on artificial generation of magnetic anisotropy through oblique angle deposition and induced strain are also covered. It also covers topics on nanocomposite material and high-magnetic-moment biocompatible alloys, artificially produced on polyimide, and considered useful for potential clinical applications. The future of magneto-optic based ferromagnetic nanostructures is extremely bright. The exceptional properties displayed by magneto-optic (MO) nanostructures, such as strong enhancement of electromagnetic fields, high sensitivity, and large signal-to-noise-ratio, make them unique, outstanding, and sought for material for biosensing, imaging and many other applications. New chapters are added on surface plasmon resonance (SPR) and MO-SPR configurations and bio-sensing.
Autorenporträt
Dr. Rizal received his PhD degree in Electrical and Computer Engineering at the University of British Columbia, Vancouver, Canada in 2012. He has published over 50 research articles and conference papers in international journals and conferences. His research interests span nano-photonics, nano-magnetism, magneto-optics and magneto-plasmonics.