Add to ORKGAn approach for the rotational dynamics of magnetic particles and their magnetic moments, in fluid suspensions, is developed. A possible application is to magnetic resonance in ferrofluids. Based on a generalized Lagrangian formulation for the equations of motion of the particle, we introduce its interaction with the solvent fluid via dissipative and random noise torques, as well as the interaction between the particle and its magnetic moment, treated as an independent physical entity and characterized by three generalized coordinates: its two polar angles and its modulus. In the appropriate limits, it reduces to the cases of superparamagnetic particles or nonsuperparamagnetic (blocked magnetic moments) particles. It is also indicated how t...
The interaction of an external magnetic field with magnetic objects affects their response and is a ...
A two-dimensional direct simulation method, based on the Maxwell stress tensor and a fictitious doma...
A mathematical model of the rotational motion of a particle with pronounced ferromagnetic properties...
An approach for the rotational dynamics of magnetic particles and their magnetic moments, in fluid s...
This work explores, from a numerical perspective, the role of particle rotational inertia on the mag...
Our main goal is to study certain aspects of the dynamics of fluids with magnetic particles in suspe...
We have studied the relaxation dynamics of a dilute assembly of ferromagnetic particles in suspensio...
A computer model of fine magnetic particles has been developed based on the Landau-Lifshitz equation...
A three-dimensional direct simulation method is developed to describe flows with paramagnetic partic...
A simple and fast numerical method is developed capable of accurately determining the 3D rotational ...
Several papers have been written on the complex problem of the stochastic dynamics of the magnetic m...
THESIS 7426This thesis is concerned with the study of the dynamic properties of ferrofluids, which a...
A theoretical model of dynamic susceptibility and magnetoviscous effect in non-dilute polydisperse f...
When studying ferrofluidic flows, as one example of magnetic flow dynamics, in terms of instability,...
The interaction of an external magnetic field with magnetic objects affects their response and is a ...
A two-dimensional direct simulation method, based on the Maxwell stress tensor and a fictitious doma...
A mathematical model of the rotational motion of a particle with pronounced ferromagnetic properties...
An approach for the rotational dynamics of magnetic particles and their magnetic moments, in fluid s...
This work explores, from a numerical perspective, the role of particle rotational inertia on the mag...
Our main goal is to study certain aspects of the dynamics of fluids with magnetic particles in suspe...
We have studied the relaxation dynamics of a dilute assembly of ferromagnetic particles in suspensio...
A computer model of fine magnetic particles has been developed based on the Landau-Lifshitz equation...
A three-dimensional direct simulation method is developed to describe flows with paramagnetic partic...
A simple and fast numerical method is developed capable of accurately determining the 3D rotational ...
Several papers have been written on the complex problem of the stochastic dynamics of the magnetic m...
THESIS 7426This thesis is concerned with the study of the dynamic properties of ferrofluids, which a...
A theoretical model of dynamic susceptibility and magnetoviscous effect in non-dilute polydisperse f...
When studying ferrofluidic flows, as one example of magnetic flow dynamics, in terms of instability,...
The interaction of an external magnetic field with magnetic objects affects their response and is a ...
A two-dimensional direct simulation method, based on the Maxwell stress tensor and a fictitious doma...
A mathematical model of the rotational motion of a particle with pronounced ferromagnetic properties...