The field of magnetic nanostructures and spin transport has continuously spawned highly valued discoveries over the past years and is still  under a rapid and lively development. Fundamental research in this field is fueled by the vision of dissipationless information processing when using pure spin currents instead of elecronic charge currents like in conventional semiconductor electronics. Top-level publications from this field receive thus an enormous degree of attention.

This lecture will lead from an introduction into the basics of spin and magnetism in reduced dimensions to some of the most fascinating recent examples of actual research. It will cover the following contents:

• Quantum-mechanical description of spin
• Magnetic anisotropy
• Molecular magnetism
• Spin currents and spin injection
• Pure spin currents
• Spin caloritronics
• Magnetoresistance effects and spintronics
• Antiferromagnetic spintronics
• Magnetic domains and domain-wall motion
• Topological spin structures
• Magnetization dynamics
• Spin waves

The topics covered match well to the research focus of several of the experimental and theoretical work groups of the department.

• Original publications in scientific journals (available online from within FU)
• J. A. C. Bland and B. Heinrich (Eds.), Ultrathin Magnetic Structures I-IV (Springer) (available online from within FU)
• S. Bandyopadhyay and M. Cahay, Introduction to Spintronics (CRC Press)
• B. Hillebrands and K. Ounadjela (Eds.), Spin Dynamics in Confined Magnetic Structures I-III (Springer)
• J. M. D. Coey, Magnetism and Magnetic Materials (Cambridge University Press)
• H. Zabel and M. Farle (eds.), Magnetic Nanostructures (Springer)

http://www.physik.fu-berlin.de/einrichtungen/ag/ag-kuch/teaching