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THERMAL FLUCTUATIONS IN MAGNETIZED PARTICLES USING PATH INTEGRALS, FOKKER PLANCK EQUATION AND COHOMOLOGICAL TECHNIQUES
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Magnetization instabilities due to spin Hall effect described by a nonequilibrium thermodynamic approach
Full text linkNumerical Solution of Fokker Planck Equation for Magnetic Nanoparticle Using Spectral Collocation and Algebraic Formulations
No full textFull Micromagnetic Numerical Simulations of Thermal Fluctuations
Full text linkThermal fluctuations for fine ferromagnetic particles are studied with the full micromagnetic analysis based on numerical integration of the spatially discretized Langevin-Landau-Lifshitz equation. These results can be used as a basis for the formulation of a standard problem to test the implementation of thermal fluctuations in numerical micromagnetic codes. To this end an example of micromagnetic analysis of thermal fluctuations in an ellipsoidal magnetic nanoparticle is presented
Boundary Element Analysis of the Electrostatic Interactions between Organic Scaffolds and Transmembrane Proteins
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Path Integral approach to the study of thermal fluctuations in ferromagnetic nanoparticles
No full textPath integral approach to stochastic magnetization dynamics in uniaxial ferromagnetic nanoparticles
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