Micromagnetic modeling of tensomagnetoresistance effect in films with unidirectional anisotropy

Abstract

The combination of anisotropic magnetoresistive and magnetostrictive effects is denoted as a tensomagnetoresistive effect. Elements which are sensitive to mechanical stresses can be manufactured based on this effect. For such elements exchange biased multilayer magnetic films are promising functional materials. This paper contains results of micromagnetic modeling of the tensomagnetoresistance in the films of a rectangular shape. Specifically, the analysis of transformation function in dependence on the mutual orientation of the unidirectional magnetic anisotropy axis and the direction of applied mechanical stresses is presented.The combination of anisotropic magnetoresistive and magnetostrictive effects is denoted as a tensomagnetoresistive effect. Elements which are sensitive to mechanical stresses can be manufactured based on this effect. For such elements exchange biased multilayer magnetic films are promising functional materials. This paper contains results of micromagnetic modeling of the tensomagnetoresistance in the films of a rectangular shape. Specifically, the analysis of transformation function in dependence on the mutual orientation of the unidirectional magnetic anisotropy axis and the direction of applied mechanical stresses is presented.