Nonequilibrium simulations of ferromagnetic colloids in the presence of a magnetic field and plane shear flow are performed. Results for the nonequilibrium magnetization and the nonequilibrium structure factor are presented. We observe that the nonequilibrium magnetization and the magnetoviscosity are enhanced due to dipolar interactions. Structure formation due to magnetic field and shear flow are observed in qualitative agreement with experimental results. for LaTeX users @article{PIlg2005-289, author = {P. Ilg and M. Kr\"oger and S. Hess}, title = {Structure and rheology of model-ferrofluids under shear flow}, journal = {J. Magnetism Magn. Mater.}, volume = {289}, pages = {325-327}, year = {2005} }
\bibitem{PIlg2005-289} P. Ilg, M. Kr\"oger, S. Hess, Structure and rheology of model-ferrofluids under shear flow, J. Magnetism Magn. Mater. {\bf 289} (2005) 325-327.PIlg2005-289 P. Ilg, M. Kr\"oger, S. Hess Structure and rheology of model-ferrofluids under shear flow J. Magnetism Magn. Mater.,289,2005,325-327 |