Nmag
0.2
1. Introduction
2. Guided Tour
2.1. Example: Demag field in uniformly magnetised sphere
2.2. Example 2: Computing the time development of a system
2.3. Example: Simple hysteresis loop
2.4. Example: Hysteresis loop for Stoner-Wohlfarth particle
2.5. Example: Hysteresis loop for thin disk
2.6. Example: Vortex formation and propagation in disk
2.7. Example: Manipulating magnetisation
2.8. Example: IPython
2.9. Example: Pinning Magnetisation
2.10. Example: Uniaxial anisotropy
2.11. Example: Cubic Anisotropy
2.12. Example: Arbitrary Anisotropy
2.13. Restart example
2.14. Applying a field that changes both in time and in space
2.15. Example: two different magnetic materials
2.16. Example: Larmor precession
2.17. Example: 1D periodicity
2.18. Example: 2D periodicity
2.19. Example: Spin-waves in periodic system
2.20. Example: post processing of saved field data
2.21. Example: Spin transfer torque (Zhang-Li model)
2.22. Example: Current-driven magnetisation precession in nanopillars
2.23. Mesh distortion for edge roughness simulation
2.24. Compression of the Boundary Element Matrix using HLib
2.25. Example: Calculation of dispersion curves
2.26. Example: Timestepper tolerances
2.27. Example: Parallel execution (MPI)
2.28. Restarting MPI runs
2.29. More than one magnetic material, exchange coupled
3. Background
4. Command reference
5. Finite element mesh generation
6. Executables
7. Files and file names
8. Frequently Asked Questions
9. Useful tools
10. Contact
11. Mini tutorial micromagnetic modelling
12. Acknowledgements
Nmag
2.
Guided Tour
2.29.
More than one magnetic material, exchange coupled
View page source
2.29.
More than one magnetic material, exchange coupled
To be written.