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The second edition of this book on nanomagnetism presents the basics and latest studies of low-dimensional magnetic nano-objects. It highlights the intriguing properties of nanomagnetic objects, such as thin films, nanoparticles, nanowires, nanotubes, nanodisks and nanorings as well as novel phenomena like spin currents. It also describes how nanomagnetism was an important factor in the rapid evolution of high-density magnetic recording and is developing into a decisive element of spintronics. Further, it presents a number of biomedical applications. With exercises and solutions, it serves as a graduate textbook.
The ?eld of Nanomagnetism is a young branch of the study of magnetic phenomena, phenomena that have been a source of amazement and stimulus for speculation for more than 3,000 years [1]. Nanomagnetism, despite being a young area, has already affected every sphere of human activity, through its fundamental contribution to make the computer an ubiquitous instrument for communication, control of industrial processes, medical diagnosis, scienti?c investigation, or leisure. The studies of particulate and thin ?lm magnetic media and other related questions led to improvements that have mul- plied, in ?ve decades, the amount of data that can be encoded into a unitary area by some 50 million times. ...
This easily accessible description charts the historical development of magnetism - dating back some three thousand y ears. Alberto P. Guimaraes starts with the Greeks, with the first records of magnetism, and ends with hard disks and magnetic resonance imaging. Nowadays every electric and electronic device involves the use of magnets, such that magnetic devices, including magnetic media and recording equipment, represent a world market of over 100 billion dollars each year. Enjoyable reading for graduates, physics students, libraries, public libraries, school libraries, those interested in the natural sciences, lay readers, historians of physics.
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This book contains much of the lost history of the development of quantum mechanics. The theory is controversial. This book explains why by going to the very foundations of Quantum Mechanics directly from the mouths of its inventors, the honored and famous scientists. It is a telling exposé and a serious but almost irreverent treatment of atomic science that tacitly suggests outright fraud, blind denial of facts, and overly enthusiastic adoption of slanted interpretations of data. Although written for those familiar with quantum mechanics, it is not written as a technical article, but informally for the educated reader. It is hard-hitting and controversial, but researched and well-referenced with over 200 quotations from 97 sources. Using historical quotations by the founders of QM, this book suggests that a different theory of the atom can be and should have been introduced without resorting to assumptions that defy evidence and deny rationality, but rather relying on existing empirical data.