AI Article Synopsis
- We introduce a mechanism for quickly dissipating magnetic fields in areas where ion movement is negligible and the field is anchored to electrons, with Hall currents becoming significant.
- These Hall currents can generate current sheets in stratified media, allowing for effective magnetic field dissipation despite conserving overall magnetic energy.
- Our calculations demonstrate that magnetic fields can dissipate over a time scale proportional to 1/omega(MH), particularly in environments like the solid crust of neutron stars with steep density gradients where ions remain stationary.
Article Abstract
We propose a mechanism for the fast dissipation of magnetic fields which is effective in a stratified medium where ion motions can be neglected. In such a medium, the field is frozen into the electrons, and Hall currents prevail. Although Hall currents conserve magnetic energy, in the presence of density gradients they are able to create current sheets which can be sites for efficient dissipation of magnetic fields. We recover the frequency omega(MH) for Hall oscillations modified by the presence of density gradients. We show that these oscillations can lead to an exchange of energy between different components of the field. We calculate the time evolution, and show that magnetic fields can dissipate on a time scale of order 1/omega(MH). This mechanism can play an important role in magnetic dissipation in systems with very steep density gradients, where the ions are static such as those found in the solid crust of neutron stars.
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| http://dx.doi.org/10.1103/physreve.61.4422 | DOI Listing |
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