论文信息 - Micromagnetics calculation for two-dimensional thin-film geometries using a finite-element formulation

Micromagnetics calculation for two-dimensional thin-film geometries using a finite-element formulation

Micromagnetics problems in two dimensions are formulated in terms of a finite-element description. The free energy, including exchange, anisotropy, external field, and demagnetization contributions, is approximated by means of integrals over linear triangular finite elements and minimized with respect to the nodal variables. By enforcing the constraint that the magnetization vectors at the nodes have constant magnitude, the resulting minimization equations are nonlinear. They are solved using Gauss-Seidel iteration. The finite-element description allows calculations to be performed for arbitrary two-dimensional geometries. In the examples presented, the magnetization distributions obtained were in agreement with expectations based on domain theory. >

[1] W. Brown,et al. Structure and Energy of One‐Dimensional Domain Walls in Ferromagnetic Thin Films , 1965 .

[2] Z. Cendes,et al. Computing magnetic domain patterns for thin film soft magnetic materials , 1985 .

[3] A. E. Labonte,et al. Two‐Dimensional Bloch‐Type Domain Walls in Ferromagnetic Films , 1969 .

[4] E. Torre. Magnetization calculation of fine particles , 1986 .

[5] C. Shir. Computations of the micromagnetic dynamics in domain walls , 1978 .

[6] D. R. Fredkin,et al. Dynamical micromagnetics by the finite element method , 1987 .

[7] L. J. Schwee,et al. The concept and initial studies of a crosstie random access memory (CRAM) , 1982 .

[8] John B. Goodenough,et al. Domain‐Wall Structure in Permalloy Films , 1958 .

[9] L. Schwee,et al. The crosstie memory , 1976 .

[10] René Collette,et al. Shape and Energy of Néel Walls in Very Thin Ferromagnetic Films , 1964 .