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Title: Time resolved magnetization dynamics of ultrathin Fe(001) films: spin-pumping and two-magnon scattering. Author: Woltersdorf G, Buess M, Heinrich B, Back CH. Journal: Phys Rev Lett; 2005 Jul 15; 95(3):037401. PubMed ID: 16090769. Abstract: The time-resolved magnetic response of ultrathin epitaxial Fe(001) films grown on GaAs(001) and covered by Au, Pd, and Cr capping layers was investigated by time and spatially resolved Kerr effect measurements. The magnetization was excited by an in-plane magnetic field pulse using the transient internal field generated at a Schottky barrier while the wavelength of the excitation (resonant mode) was roughly 4 microm. Each of the three cap layers affected the spin relaxation in a unique way. Au cap layers resulted in the bulk Gilbert damping of the Fe film. Pd cap layers caused an additional Gilbert damping due to spin-pump or spin-sink effects. Cr cap layers lead to a strong extrinsic damping which can be described by two-magnon scattering. In this case the strength of the extrinsic damping can be controlled by a field induced shift of the spin wave manifold with respect to the excited k vector.[Abstract] [Full Text] [Related] [New Search]