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Functional Magnetic and Spintronic Nanomaterials / edited by Igor Vladymyrskyi, Burkard Hillebrands, Alexander Serha, Denys Makarov, Oleksandr Prokopenko.

Springer Nature - Springer Physics and Astronomy eBooks 2024 English International Available online

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Format:
Book
Author/Creator:
Vladymyrskyi, Igor.
Contributor:
Hillebrands, Burkard.
Serha, Alexander.
Makarov, Denys.
Prokopenko, Oleksandr.
Series:
NATO Science for Peace and Security Series B: Physics and Biophysics, 1874-6535
Language:
English
Subjects (All):
Quantum computing.
Spintronics.
Magnetism.
Quantum Information.
Local Subjects:
Quantum Information.
Spintronics.
Magnetism.
Physical Description:
1 online resource (224 pages)
Edition:
1st ed. 2024.
Place of Publication:
Dordrecht : Springer Netherlands : Imprint: Springer, 2024.
Summary:
Macroscopic objects made of magnetic materials have been known to mankind for several thousand years and are widely used in various fields of human activity. With the development and practical implementation of microelectronics, and more recently nanoelectronics, it has become possible to develop and manufacture magnetic nanomaterials, dramatically expanding the scope of magnetics in modern technologies. Today, magnetic nanomaterials and nanostructures are key components of advanced information technologies. They are widely used in eMobility, medicine, sensors, robotics, etc., and have significant potential for application in prospective smart wearables and human-machine interfaces. This volume outlines recent research in the field of functional magnetic and spintronic materials. Each of the 10 chapters in the volume is self-contained, allowing the topics to be explored independently of the material in other chapters. The book covers the entire “life cycle” of magnetic/spintronic nanomaterials: from theoretical and numerical studies of their properties (Ch. 1), fabrication and experimental study of film systems (Ch. 2), fabrication of nanostructures (Ch. 3), study of electromagnetic phenomena occurring in such nanostructures (Chs. 4-10), to the use of these nanostructures in new technologies, particularly in spintronic energy harvesting (Ch. 9) and quantum sensing (Ch. 10). Some of the contributions to this volume were presented as lectures and reports at the Advanced Research Workshop “Functional Spintronic Nanomaterials for Radiation Detection and Energy Harvesting” (25–27 September 2023, Kyiv, Ukraine), which was supported by the NATO Science for Peace and Security Programme.
Contents:
1. Influence of strong electron–electron correlations on the electrical conduction and magnetic properties of substitutional alloys as advanced functional spintronic material (V.V. Lizunov, I.M. Melnyk, T.M. Radchenko, S.P. Repetsky, V.A. Tatarenko – G.V. Kurdyumov Institute for Metal Physics of the N.A.S. of Ukraine, Kyiv, Ukraine)
2. Engineered nanocolumnar magnetic films (María Garrido-Segovia, Lidia Martínez, Yves Huttel, Sašo Gyergyek, Ana Espinosa, Elena Navarro and José Miguel García-Martín – Departamento de Física de Materiales, Universidad Complutense de Madrid, Madrid, Spain; Instituto de Micro y Nanotecnología, Madrid, Spain; Instituto de Magnetismo Aplicado, Madrid, Spain; Instituto de Ciencia de Materiales de Madrid, Madrid, Spain; Department for Materials Synthesis, Jožef Stefan Institute, Ljubljana, Slovenia)
3. Mn-based perpendicular magnetic tunnel junctions (Andreas Kaidatzis – Institute of Nanoscience and Nanotechnology, N.C.S.R. “Demokritos”, Athens, Greece)
4. Longitudinal evolution of the magnetization in nanostructure (Ivan A. Yastremsky – Taras Shevchenko National University of Kyiv, Kyiv, Ukraine)
5. Controlling multimagnon interaction in magnetic nanodots and spintronic nanostructures (Roman Verba, Julia Kharlan, Vladyslav Borynskyi, Denys Slobodianiuk, Arezoo Etesamirad and Igor Barsukov – Institute of Magnetism, Kyiv, Ukraine; Institute of Spintronics and Quantum Information, Faculty of Physics, Adam Mickiewicz University, Poznań, Poland; Taras Shevchenko National University of Kyiv, Kyiv, Ukraine; Physics and Astronomy, University of California, Riverside, California, USA)
6. Domain wall automotion by cross section tailoring in ferromagnetic nanostripes (Dmytro Karakuts, Kostiantyn V. Yershov, Denis D. Sheka – Taras Shevchenko National University of Kyiv Kyiv, Ukraine; Leibniz-Institut fur Festkorper- und Werkstoffforschung, IFW Dresden, Dresden, Germany)
7. Supercritical propagation of nonlinear spin wave through an antiferromagnetic magnonic crystal (Oksana Yu. Gorobets, Volodymyr V. Kulish, Ihor A. Syzon, Daryna V. Provolovska – National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», Kyiv, Ukraine)
8. Energy conversion and energy harvesting in spin diodes (Ivan Fantych, Volodymyr Prokopenko, Oleksandr Prokopenko – Taras Shevchenko National University of Kyiv, Kyiv, Ukraine)
9. Magnetic nanocomponents for frequency converting in quantum computing technologies (A.A. Girich, S.V. Nedukh, S.Yu. Polevoy, B. Rami, K.Yu. Sova, S.I. Tarapov, A.S. Vakula – O.Ya. Usikov Institute for Radiophysics and Electronics of the N.A.S. of Ukraine, Kharkiv, Ukraine; Gebze Technical University, Gebze, Turkey)
10. Hybrid quantum systems for quantum transduction based on magnonic materials (S. Kazan, N.G. Saribas, M. Maksutoglu, S.Ç. Yorulmaz, E. Avinca, F. Yıldız, S.I. Tarapov, B. Rami – O.Ya. Usikov Institute for Radiophysics and Electronics of the N.A.S. of Ukraine, Kharkiv, Ukraine; V.N. Karazin Kharkiv National University, Kharkiv, Ukraine; Gebze Technical University, Kocaeli, Türkiye).
Notes:
Description based on publisher supplied metadata and other sources.
ISBN:
94-024-2254-4
OCLC:
1459699293

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