Strongly self-magnetized quantum relativistic electron gas expanding as a jet

We discuss the behavior of a strongly magnetized electron gas whose dominant pressure is exerted along the applied field, and extends along it as a one dimensional system. We suggest a model for maintaining the magnetic field selfconsistently, and for it we conjecture a partial bosonization of the e...

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Bibliographic Details
Published in:Astronomische Nachrichten 2015-11, Vol.336 (8-9), p.885-889
Main Authors: Perez Rojas, H, Rodriguez Querts, E, Perez Martinez, A
Format: Article
Language:English
Subjects:
acceleration of particles
Astrophysics
Electron gas
elementary particles
galaxies: jets
Gases
High frequencies
Kinetic energy
Kinetics
Magnetic fields
Mathematical analysis
Mathematical models
Photons
Quantum physics
relativistic processes
Vectors (mathematics)
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Summary:We discuss the behavior of a strongly magnetized electron gas whose dominant pressure is exerted along the applied field, and extends along it as a one dimensional system. We suggest a model for maintaining the magnetic field selfconsistently, and for it we conjecture a partial bosonization of the electron gas, described by a charged vector boson field which experiences condensation, leading to a ferromagnetic behavior. Our aim is to suggest a possible quantum relativistic self‐magnetized jet model. High frequency photons will be deviated also along paths parallel to the external field. Any addition of energy to the electron system, would contribute mainly to increase the kinetic energy along the magnetic field axis, an the jet may grow in this way for long times. (© 2015 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)
ISSN:0004-6337
1521-3994
DOI:10.1002/asna.201512243