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Mosendz O, Pearson JE, Fradin FY, Bauer GEW, Bader SD, Hoffmann A (2010) Quantifying spin Hall angles from spin pumping: Experiments and theory.

Phys Rev Lett 88:117601Ĭostache MV, Sladkov M, Watts SM, van der Wal CH, van Wees BJ (2006) Electrical detection of spin pumping due to the precessing magnetization of a single ferromagnet. Tserkovnyak Y, Brataas A, Bauer GEW (2002) Spin pumping and magnetization dynamics in metallic multilayers. Mizukami S, Ando Y, Miyazaki T (2002) Effect of spin diffusion on Gilbert damping for a very thin permalloy layer in Cu/permalloy/Cu/Pt films. Silsbee RH, Janossy A, Monod P (1979) Coupling between ferromagnetic and conduction-spin-resonance modes at a ferromagnetic-normal-metal interface. Takahashi S, Maekawa S (2003) Spin injection and detection in magnetic nanostructures. Han W, McCreary KM, Pi K, Wang WH, Li Y, Wen H, Chen JR, Kawakami RK (2012) Spin transport and relaxation in graphene. Lou XH, Adelmann C, Crooker SA, Garlid ES, Zhang J, Reddy KSM, Flexner SD, Palmstrom CJ, Crowell PA (2007) Electrical detection of spin transport in lateral ferromagnet-semiconductor devices. Jedema FJ, Heersche HB, Filip AT, Baselmans JJA, van Wees BJ (2002) Electrical detection of spin precession in a metallic mesoscopic spin valve. Jedema FJ, Filip AT, van Wees BJ (2001) Electrical spin injection and accumulation at room temperature in an all-metal mesoscopic spin valve. Johnson M (1993) Spin accumulation in gold films. Johnson M, Silsbee RH (1985) Interfacial charge-spin coupling: Injection and detection of spin magnetization in metals. Maekawa S, Valenzuela SO, Saitoh E, Kimura T (eds) (2012) Spin current. Žutić I, Fabian J, Das Sarma S (2004) Spintronics: Fundamentals and applications. Tsymbal E, Zutić I (eds) (2011) Handbook of spin transport and magnetism. Maekawa S (ed) (2006) Concepts in spin electronics. This process is experimental and the keywords may be updated as the learning algorithm improves. These keywords were added by machine and not by the authors. The inverse effect that the spin dynamics is manipulated by spin injection into a ferromagnet from a normal metal with strong spin-orbit coupling using the spin-Hall effect is also discussed. It is demonstrated that pure spin currents are generated by the coherent spin pumping due to ferromagnetic resonance and the thermal spin pumping due to the spin Seebeck effect. In this chapter a theoretical description for spin pumping from a ferromagnet into a normal metal is presented based on the spin-exchange interaction between localized moments and conduction electrons in hybrid nanostructures. The spin pumping is a versatile method to create the spin current and spin accumulation in various conducting materials in hybrid nanostructures.