" a perfect, quantitative introduction to the field, with coverage of all important contemporary topics. Besides scientists and engineers working in the fields of spintronics, nanoelectronics, and quantum computing, this book will especially benefit undergraduate and beginning graduate students who have not been exposed to more rigorous training in quantum mechanics. For beginning students, the first five chapters cover the quantum mechanics of spin angular momentum, Dirac and Pauli equations, Bloch sphere, and density matrix. The rest of the book logically builds on this foundationthe authors take the reader by the hand and lead her/him through the detailed derivations from the basic expressions to the equations describing the physics of contemporary spintronic devices." Boris M. Vulovic, Lecturer, Department of Electrical Engineering, University of California, Los Angeles, USA, and Senior Research Engineer, APIC Corporation, Culver City, California, USA
" provides a useful introduction to spintronics and nanomagnetism for beginning graduate students. The authors are well established in their field and naturally bring a technical perspective from being active in research." Avik Ghosh, University of Virginia
"The book gives a generous broad overview of spintronics. It sets off from the basic quantum mechanics needed and subsequently moves systematically to higher experts levels to make the reader comfortable with current ideas and relevant research literature in this dynamic field." Karl-Fredrik Berggren, Linköping University, Sweden
" provides sufficient knowledge and understanding in the field of spintronic devices for researchers and students in academics and industry. I am sure this book will provide a very good platform for further development of spintronics research and education. Saroj Prasad Dash, Chalmers University of Technology
" amazingly comprehensive coverage most welcome to not only those planni
