Magnetoelastic interactions and magnetic damping in Co2Fe0.4Mn0.6Si and Co2FeGa0.5Ge0.5 Heusler alloys thin films for spintronic applications

Co2Fe0.4Mn0.6Si (CFMS) and Co2FeGa0.5Ge0.5 (CFGG) Heusler alloys are among the most promising thin film materials for spintronic devices due to a high spin polarization, low magnetic damping and giant/tunneling magnetoresistance ratios. Despite numerous investigations of Heusler alloys magnetic properties performed up to now, magnetoelastic effects in these materials remain not fully understood; due to quite rare studies of correlations between magnetoelastic and other magnetic properties, such as magnetic dissipation or magnetic anisotropy. In this research we have investigated epitaxial CFMS and CFGG Heusler alloys thin films of thickness in the range of 15-50 nm. We have determined the magnetoelastic tensor components and magnetic damping parameters as a function of the magnetic layer thickness. Magnetic damping measurements revealed the existence of non-Gilbert dissipation related contributions, including two-magnon scattering and spin pumping phenomena. Magnetoelastic constant B-11 values and the effective magnetic damping parameter alpha (eff) values were found to be in the range of - 6 to 30x10(6) erg/cm(3) and between 1 and 12x10(-3), respectively. The values of saturation magnetostriction lambda (S) for CFMS Heusler alloy thin films were also obtained using the strain modulated ferromagnetic resonance technique. The correlation between alpha (eff) and B-11, depending on magnetic layer thickness was determined based on the performed investigations of the above mentioned magnetic properties.

Automated summary

This study investigated the magnetoelastic effects in CFMS and CFGG Heusler alloy thin films, as well as the correlations between various magnetic properties. Non-Gilbert dissipation related contributions were found, including two-magnon scattering and spin pumping phenomena. The magnetoelastic constant values and effective magnetic damping parameter values were determined, revealing a range of -6 to 30x10(6) erg/cm(3) and 1 to 12x10(-3), respectively.