Physical Theory of Ferromagnetic Domains

  title={Physical Theory of Ferromagnetic Domains},
  author={Charles Kittel},
  journal={Reviews of Modern Physics},
  • C. Kittel
  • Published 1 October 1949
  • Physics
  • Reviews of Modern Physics
Nonlinear Magnetomechanical Modeling and Characterization of Galfenol and System-Level Modeling of Galfenol-Based Transducers
Magnetostrictive materials have the ability to transfer energy between the magnetic and mechanical domains. They deform in response to magnetic fields and magnetize in response to stresses. Further,
Characterization of Bending Magnetostriction in Iron-Gallium Alloys for Nanowire Sensor Applications
Abstract : This research explores the possibility of using electrochemically deposited nanowires of magnetostrictive iron-gallium (Galfenol) to mimic the sensing capabilities of biological cilia.
Simulations of ferromagnetic nano structures
This thesis introduces and evaluates the new “macro geometry” approach to bit patterned element geometries which are below 1 micrometre in size and finds that the uniform current model, sometimes used in the study of AMR effects, is a very inaccurate approximation and can easily lead to qualitatively wrong results.
Magnetic characterisation of grain size and precipitate distribution by major and minor BH loop measurements
Influence of cobalt doping on structural and magnetic properties of BiFeO3 nanoparticles
Nanocrystalline cobalt-doped bismuth ferrites with general formula of BiFe1−δCoδO3 (0 ≤ δ ≤ 0.1) have been synthesized using solution evaporation method. Structure and phase identification was
Static and Dynamic Delta E Effect in Magnetostrictive Materials with Application to Electrically-Tunable Vibration Control Devices
Magnetostrictive materials transfer energy between the magnetic and mechanical domains as they magnetize in response to applied stresses and deform in response to applied magnetic fields. The