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      Micromagnetic simulation of magnetic small-angle neutron scattering from two-phase nanocomposites

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          Abstract

          The recent development of a micromagnetic simulation methodology - suitable for multiphase magnetic nanocomposites - permits the computation of the magnetic microstructure and of the associated magnetic small-angle neutron scattering (SANS) cross section of these materials. In this review article we summarize results on the micromagnetic simulation of magnetic SANS from two-phase nanocomposites. The decisive advantage of this approach resides in the possibility to srutinize the individual magnetization Fourier contributions to the total magnetic SANS cross section, rather than their sum, which is generally obtained from experiment. The procedure furnishes unique and fundamental information regarding magnetic neutron scattering from nanomagnets.

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          Computer simulation of close random packing of equal spheres

          E. M. Tory, W. Jodrey (1985)
          Article 0 comments Cited 92 times – based on 0 reviews     Review now
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            Crystal Handedness and Spin Helix Chirality in\({\mathrm{Fe}}_{1-x}{\mathrm{Co}}_{x}\mathrm{Si}\)

            V. Dyadkin, D Chernyshov, S. V. Grigoriev (2009)
            Article 0 comments Cited 36 times – based on 0 reviews     Review now
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              Core-shell magnetic morphology of structurally uniform magnetite nanoparticles.

              J. A. Borchers, L. R. Dedon, S S Harris (2010)
              A new development in small-angle neutron scattering with polarization analysis allows us to directly extract the average spatial distributions of magnetic moments and their correlations with three-dimensional directional sensitivity in any magnetic field. Applied to a collection of spherical magnetite nanoparticles 9.0 nm in diameter, this enhanced method reveals uniformly canted, magnetically active shells in a nominally saturating field of 1.2 T. The shell thickness depends on temperature, and it disappears altogether when the external field is removed, confirming that these canted nanoparticle shells are magnetic, rather than structural, in origin.
              Article 0 comments Cited 31 times – based on 0 reviews     Review now
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                Author and article information

                Journal
                Publication date Created: 10 July 2012
                Article
                ArXiV ID: 1207.2331
                SO-VID: 3aae76ed-0c50-4204-b362-7a23605cf7fd
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                http://arxiv.org/licenses/nonexclusive-distrib/1.0/

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                Categories cond-mat.mes-hall

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