Mesoscopic superconductors achieve a level of smallness that reveals the dominance of strange quantum effects. In a world driven by the miniaturization of electronic device technology, small superconductors acquire great relevance and timeliness for the development of ground breaking novel quantum devices.
Mesoscopic superconductors achieve a level of smallness that reveals the dominance of strange quantum effects. In a world driven by the miniaturization of electronic device technology, small superconductors acquire great relevance and timeliness for the development of ground breaking novel quantum devices.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
A.V. Narlikar has been active researcher in the field of superconductors for over 50 years. He received PhD and ScD degrees in this field from the University of Cambridge, UK. For nearly three decades Professor Narlikar headed the Superconductivity Division at the National Physical Laboratory, New Delhi, India. He is presently a senior scientist and a Fellow of Indian National Science Academy, working at UDCSR, in Indore. He is also a Visiting Scientist in the Applied Superconductivity and Cryoscience Group at the Department of Materials Science and Metallurgy, University of Cambridge, UK and at the Physics Department, University of Hamburg, Germany. Besides Superconductors, his active research interests are extended in nanoscience and SPM techniques. Professor Narlikar has contributed over 300 research papers to international refereed journals and has over 60 edited/authored books to his credit.
Inhaltsangabe
* Part I: Basic Studies * 1: A.V. Narlikar: Introduction: Small Superconductors * 2: Dimitri Roditchev, Tristan Cren, Christophe Brun and Milorad Milosevic: Local Scale Spectroscopic Studies of Vortex Organization in Mesoscopic Superconductors * 3: N. Kokubo, S. Okayasu and K. Kadowaki: Multi-Vortex States in Mesoscopic Superconductors * 4: J.C. Cuevas, Dimitri Roditchev, Tristan Cren and Christophe Brun: Proximity Effect: A New Insight From In-Situ Fabricated Hybrid Nanostructures * 5: D. Daghero, G.A. Ummarino and R.S. Gonnelli: Andreev Reflection and Related Studies in Low-Dimensional Superconducting Systems * 6: Yao-Yi Li and Jin-Feng Jia: Topological Superconductors and Majorana Fermions * 7: S. Gariglo, M. Scheurer, J. Schmalian, A.M.R.V.L. Monterio, S. Goswami and A. Caviglia: Surface and Interface Superconductivity * Part II: Materials Aspects * 8: Goran Karapetro, Steven A. Moore and Maria Iavarone: Mesoscopic Effects in Superconductor-Ferromagn Hybrids * 9: H. Asai: Theoretical Study of THz Emission from HTS Cuprates * 10: A.Müller, S.E.C. Dale, M.A. Engbarth: Macromagnetic Measurements on Electrochemically Grown Mesoscopic Superconductors * 11: M.R. Koblischka: Growth and Characterization of HTSC Nanowires and Nanoribbons * 12: H. Zhang: Mesoscopic Structures and Their Effects on High Tc Superconductivity * 13: M. Motta, A.V. Silhanek and W.A. Ortiz: Magnetic Flux Avalanches in Superconducting Films with Mesoscopic Artificial Patterns * Part III: Device Technology * 14: M.G. Blamire and J.W.A. Robinson: Superconducting Spintronics and Devices * 15: Martin P. Weides: Barriers in Josephson Junctions: An Overview * 16: K. Grove-Rasmussen, T. Sand-Jespersen, A. Jellinggaard and J. Nygård: Hybrid Superconducting Devices Based on Quantum Wires * 17: John Gallop and Ling Hao: Superconducting Nano Devices * 18: Jonas Bylander: Superconducting Quantum Bits of Information - Coherence and Design Improvements * 19: María José Martínez-Pérez, Reinhold Kleiner and Dieter Koelle: NanoSQUIDs Applied to the Investigation of Small Magnetic Systems
* Part I: Basic Studies * 1: A.V. Narlikar: Introduction: Small Superconductors * 2: Dimitri Roditchev, Tristan Cren, Christophe Brun and Milorad Milosevic: Local Scale Spectroscopic Studies of Vortex Organization in Mesoscopic Superconductors * 3: N. Kokubo, S. Okayasu and K. Kadowaki: Multi-Vortex States in Mesoscopic Superconductors * 4: J.C. Cuevas, Dimitri Roditchev, Tristan Cren and Christophe Brun: Proximity Effect: A New Insight From In-Situ Fabricated Hybrid Nanostructures * 5: D. Daghero, G.A. Ummarino and R.S. Gonnelli: Andreev Reflection and Related Studies in Low-Dimensional Superconducting Systems * 6: Yao-Yi Li and Jin-Feng Jia: Topological Superconductors and Majorana Fermions * 7: S. Gariglo, M. Scheurer, J. Schmalian, A.M.R.V.L. Monterio, S. Goswami and A. Caviglia: Surface and Interface Superconductivity * Part II: Materials Aspects * 8: Goran Karapetro, Steven A. Moore and Maria Iavarone: Mesoscopic Effects in Superconductor-Ferromagn Hybrids * 9: H. Asai: Theoretical Study of THz Emission from HTS Cuprates * 10: A.Müller, S.E.C. Dale, M.A. Engbarth: Macromagnetic Measurements on Electrochemically Grown Mesoscopic Superconductors * 11: M.R. Koblischka: Growth and Characterization of HTSC Nanowires and Nanoribbons * 12: H. Zhang: Mesoscopic Structures and Their Effects on High Tc Superconductivity * 13: M. Motta, A.V. Silhanek and W.A. Ortiz: Magnetic Flux Avalanches in Superconducting Films with Mesoscopic Artificial Patterns * Part III: Device Technology * 14: M.G. Blamire and J.W.A. Robinson: Superconducting Spintronics and Devices * 15: Martin P. Weides: Barriers in Josephson Junctions: An Overview * 16: K. Grove-Rasmussen, T. Sand-Jespersen, A. Jellinggaard and J. Nygård: Hybrid Superconducting Devices Based on Quantum Wires * 17: John Gallop and Ling Hao: Superconducting Nano Devices * 18: Jonas Bylander: Superconducting Quantum Bits of Information - Coherence and Design Improvements * 19: María José Martínez-Pérez, Reinhold Kleiner and Dieter Koelle: NanoSQUIDs Applied to the Investigation of Small Magnetic Systems
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