Magnetism in carbon nanostructures / Frank Hagelberg, East Tennessee State University.
By: Hagelberg, Frank [author.].
Material type: BookPublisher: Cambridge : Cambridge University Press, 2017Description: 1 online resource (xiii, 420 pages) : digital, PDF file(s).Content type: text Media type: computer Carrier type: online resourceISBN: 9781107707047 (ebook).Subject(s): Carbon -- Magnetic properties | Nanostructured materials -- Magnetic properties | Magnetic materialsAdditional physical formats: Print version: : No titleDDC classification: 620.1/1597 Online resources: Click here to access online Summary: Magnetism in carbon nanostructures is a rapidly expanding field of current materials science. Its progress is driven by the wide range of applications for magnetic carbon nanosystems, including transmission elements in spintronics, building blocks of cutting-edge nanobiotechnology, and qubits in quantum computing. These systems also provide novel paradigms for basic phenomena of quantum physics, and are thus of great interest for fundamental research. This comprehensive survey emphasizes both the fundamental nature of the field, and its groundbreaking nanotechnological applications, providing a one-stop reference for both the principles and the practice of this emerging area. With equal relevance to physics, chemistry, engineering and materials science, senior undergraduate and graduate students in any of these subjects, as well as all those interested in novel nanomaterials, will gain an in-depth understanding of the field from this concise and self-contained volume.Title from publisher's bibliographic system (viewed on 11 Aug 2017).
Magnetism in carbon nanostructures is a rapidly expanding field of current materials science. Its progress is driven by the wide range of applications for magnetic carbon nanosystems, including transmission elements in spintronics, building blocks of cutting-edge nanobiotechnology, and qubits in quantum computing. These systems also provide novel paradigms for basic phenomena of quantum physics, and are thus of great interest for fundamental research. This comprehensive survey emphasizes both the fundamental nature of the field, and its groundbreaking nanotechnological applications, providing a one-stop reference for both the principles and the practice of this emerging area. With equal relevance to physics, chemistry, engineering and materials science, senior undergraduate and graduate students in any of these subjects, as well as all those interested in novel nanomaterials, will gain an in-depth understanding of the field from this concise and self-contained volume.
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