Exploration of Quantum Transport Phenomena via Engineering Emergent Magnetic Fields in Topological Magnets - Fujishiro, Yukako
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This book addresses novel electronic and thermoelectronic properties arising from topological spin textures as well as topologically non-trivial electronic structures. In particular, it focuses on a unique topological spin texture, i.e., spin hedgehog lattice, emerging in a chiral magnet and explore its novel properties which are distinct from the conventional skyrmion lattice, and discusses the possibility of realizing high-temperature quantum anomalous Hall effect through quantum confinement effect in topological semimetal. This book benefits students and researchers working in the field of…mehr

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Produktbeschreibung
This book addresses novel electronic and thermoelectronic properties arising from topological spin textures as well as topologically non-trivial electronic structures. In particular, it focuses on a unique topological spin texture, i.e., spin hedgehog lattice, emerging in a chiral magnet and explore its novel properties which are distinct from the conventional skyrmion lattice, and discusses the possibility of realizing high-temperature quantum anomalous Hall effect through quantum confinement effect in topological semimetal. This book benefits students and researchers working in the field of condensed matter physics, through providing comprehensive understanding of the current status and the outlook in the field of topological magnets.
Autorenporträt
Dr. Yukako Fujishiro is a postdoctoral researcher at the RIKEN Center for Emergent Matter Science in Japan. She received her PhD in applied physics from the University of Tokyo in 2021. Her current work focuses on the exploration of new materials, which have topologically non-trivial electronic or magnetic structures, as well as their potential functions and applications.