Role of particle size distribution and magnetic anisotropy on magnetization of antiferromagnetic nanoparticles
Magnetization measurements on antiferromagnetic iron storage protein ferritin are reported.
The magnetization as a function of applied magnetic field data in superparamagnetic region
are analyzed considering a distribution in particle size. The estimated particle size
distribution is compared with that determined from transmission electron micrograph. Effect
of magnetic anisotropy on magnetization process of this nanoparticle system is also
discussed.
The magnetization as a function of applied magnetic field data in superparamagnetic region
are analyzed considering a distribution in particle size. The estimated particle size
distribution is compared with that determined from transmission electron micrograph. Effect
of magnetic anisotropy on magnetization process of this nanoparticle system is also
discussed.
Abstract
Magnetization measurements on antiferromagnetic iron storage protein ferritin are reported. The magnetization as a function of applied magnetic field data in superparamagnetic region are analyzed considering a distribution in particle size. The estimated particle size distribution is compared with that determined from transmission electron micrograph. Effect of magnetic anisotropy on magnetization process of this nanoparticle system is also discussed.
Elsevier
以上显示的是最相近的搜索结果。 查看全部搜索结果