Absolute stability in a collisionless electron-heat-conducting plasma in strong magnetic fields
The dispersion relation obtained from a linear analysis of the hydrodynamic system of equations of Duhau is used to study the behaviour of the fast and slow magnetosonie and entropy modes in an electron-heat-flux-conducting plasma. The evolution of the hydrodynamic modes different from the Alfven mo...
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1989
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| Acceso en línea: | https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00223778_v41_n1_p107_LaTorre http://hdl.handle.net/20.500.12110/paper_00223778_v41_n1_p107_LaTorre |
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paper:paper_00223778_v41_n1_p107_LaTorre2023-06-08T14:50:29Z Absolute stability in a collisionless electron-heat-conducting plasma in strong magnetic fields Heat Transfer--Conduction Hydrodynamics Magnetic Fields Mathematical Techniques--Applications Dispersion Relations Magnetosonic Modes Plasmas The dispersion relation obtained from a linear analysis of the hydrodynamic system of equations of Duhau is used to study the behaviour of the fast and slow magnetosonie and entropy modes in an electron-heat-flux-conducting plasma. The evolution of the hydrodynamic modes different from the Alfven mode are studied as the electron heat flux is increased from zero as well as around the borders of overstable regions, for any anisotropy condition of the ions. The development of the domains of mirror and electron-heat-flux overstabilities are established and the regions of absolute stability are shown. © 1989, Cambridge University Press. All rights reserved. 1989 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00223778_v41_n1_p107_LaTorre http://hdl.handle.net/20.500.12110/paper_00223778_v41_n1_p107_LaTorre |
| institution |
Universidad de Buenos Aires |
| institution_str |
I-28 |
| repository_str |
R-134 |
| collection |
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) |
| topic |
Heat Transfer--Conduction Hydrodynamics Magnetic Fields Mathematical Techniques--Applications Dispersion Relations Magnetosonic Modes Plasmas |
| spellingShingle |
Heat Transfer--Conduction Hydrodynamics Magnetic Fields Mathematical Techniques--Applications Dispersion Relations Magnetosonic Modes Plasmas Absolute stability in a collisionless electron-heat-conducting plasma in strong magnetic fields |
| topic_facet |
Heat Transfer--Conduction Hydrodynamics Magnetic Fields Mathematical Techniques--Applications Dispersion Relations Magnetosonic Modes Plasmas |
| description |
The dispersion relation obtained from a linear analysis of the hydrodynamic system of equations of Duhau is used to study the behaviour of the fast and slow magnetosonie and entropy modes in an electron-heat-flux-conducting plasma. The evolution of the hydrodynamic modes different from the Alfven mode are studied as the electron heat flux is increased from zero as well as around the borders of overstable regions, for any anisotropy condition of the ions. The development of the domains of mirror and electron-heat-flux overstabilities are established and the regions of absolute stability are shown. © 1989, Cambridge University Press. All rights reserved. |
| title |
Absolute stability in a collisionless electron-heat-conducting plasma in strong magnetic fields |
| title_short |
Absolute stability in a collisionless electron-heat-conducting plasma in strong magnetic fields |
| title_full |
Absolute stability in a collisionless electron-heat-conducting plasma in strong magnetic fields |
| title_fullStr |
Absolute stability in a collisionless electron-heat-conducting plasma in strong magnetic fields |
| title_full_unstemmed |
Absolute stability in a collisionless electron-heat-conducting plasma in strong magnetic fields |
| title_sort |
absolute stability in a collisionless electron-heat-conducting plasma in strong magnetic fields |
| publishDate |
1989 |
| url |
https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00223778_v41_n1_p107_LaTorre http://hdl.handle.net/20.500.12110/paper_00223778_v41_n1_p107_LaTorre |
| _version_ |
1768546526505730048 |