Ideal magnetohydrodynamics relaxation is the topology-conserving reconfiguration of a magnetic field into a lower energy state where the net force is zero. This is achieved by modeling the plasma as perfectly conducting viscous fluid. It is an important tool for investigating plasma equilibria and is often used to study the magnetic configurations in fusion devices and astrophysical plasmas. We study the equilibrium reached by a localized magnetic field through the topology conserving relaxation of a magnetic field based on the Hopf fibration in which magnetic field lines are closed circles that are all linked with one another. Magnetic fields with this topology have recently been shown to occur in non-ideal numerical simulations. Our resul...
Relaxed States of a slightly resistive and turbulent magnetized plasma is obtained by invoking the p...
We investigate the existence of magnetohydrostatic equilibria for topologically complex magnetic fie...
Force-free magnetic fields are important in many astrophysical settings. Determining the properties ...
Ideal magnetohydrodynamics relaxation is the topology-conserving reconfiguration of a magnetic field...
Predicting the final state of turbulent plasma relaxation is an important challenge, both in astro-p...
In the continuum limit, plasmas are governed by magnetohydrodynamic (MHD) models - nonlinear dynamic...
Stability and reconnection of magnetic fields play a fundamental role in natural and manmade plasma....
Predicting the final state of turbulent plasma relaxation is an important challenge, both in astro-p...
Context. For the last thirty years, most of the studies on the relaxation of stressed magnetic field...
Plasma relaxation in the presence of an initially braided magnetic field can lead to self-organizati...
Plasma relaxation in the presence of an initially braided magnetic field can lead to self-organizat...
A theory of relaxation of a magnetized plasma based on the principle of minimum dissipation and cons...
Context. The understanding of fossil fields origin, topology and stability is one of the corner ston...
Relaxed States of a slightly resistive and turbulent magnetized plasma is obtained by invoking the p...
We investigate the existence of magnetohydrostatic equilibria for topologically complex magnetic fie...
Force-free magnetic fields are important in many astrophysical settings. Determining the properties ...
Ideal magnetohydrodynamics relaxation is the topology-conserving reconfiguration of a magnetic field...
Predicting the final state of turbulent plasma relaxation is an important challenge, both in astro-p...
In the continuum limit, plasmas are governed by magnetohydrodynamic (MHD) models - nonlinear dynamic...
Stability and reconnection of magnetic fields play a fundamental role in natural and manmade plasma....
Predicting the final state of turbulent plasma relaxation is an important challenge, both in astro-p...
Context. For the last thirty years, most of the studies on the relaxation of stressed magnetic field...
Plasma relaxation in the presence of an initially braided magnetic field can lead to self-organizati...
Plasma relaxation in the presence of an initially braided magnetic field can lead to self-organizat...
A theory of relaxation of a magnetized plasma based on the principle of minimum dissipation and cons...
Context. The understanding of fossil fields origin, topology and stability is one of the corner ston...
Relaxed States of a slightly resistive and turbulent magnetized plasma is obtained by invoking the p...
We investigate the existence of magnetohydrostatic equilibria for topologically complex magnetic fie...
Force-free magnetic fields are important in many astrophysical settings. Determining the properties ...