Nowadays information technology is based on semiconductor and feromagnetic materials. Information processing and computation are based on electron charge in semiconductor transistors and integrated circuits, and information is stored on magnetic high-density hard disks based on the physics of the electron spins. Recently, a new branch of physics and nanotechnology, called magneto-electronics, spintronics or spin electronics, has emerged, which aims at simultaneously exploiting both the charge and the spin of electrons in the same device. A broader goal is to develop new functionality that does not exist separately in a ferromagnet or semiconductor. The aim of this book is to present new directions in the development of spin electronics in both the basic physics and the technologywhich will become the foundation of future electronics.
1. Optical Phenomena in Magnetic Semiconductors,H. Munekata 2. Bipolar Spintronics,I. Zutic and J. Fabian 3. Probing and Manipulating Spin Effects in Quantum Dots,S. Tarucha, M. Stopa, S. Sasaki and K. Ono 4. Spin-Dependent Transport in Single-Electron Devices,J. Martinek and J. Barnas 5. Spin-Transfer Torques and Nanomagnets,D. Ralph and R. Buhrman 6. Tunnel Spin Injectors,X. Jiang and S.Parkin 7. Theory of Spin-Transfer Torque and Domain Wall Motion in Magnetic Nanostructures,S. Barnes and S Maekawa 8. Spin Injection and Spin Transport in Hybrid Nanostructures,S. Takahashi, H. Imamura and S. Maekawa 9. Andreev Reflection at Ferromagnet/Superconductor Interfaces,S. Takahashi, H. Imamura and S. Maekawa
Professor Sadamichi Maekawa Institute for Materials Research Katahira 2-1-1, Aobaku Sendai 980-8577, Japan 2005-present: Honda Professor, Institute for Materials Research, Tohoku University 1997-present: Professor, Institute for Materials Research, Tohoku University 1988-1997: Professor, Department olă#
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