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Simulation of Relativistic Shocks and Associated Self-Consistent Radiation for GRB Prompt Emission and Afterglows (2010)

Frederiksen, J. ; Sol, H. ; Hartmann, D. H. ; [weitere]

In: CASI

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Publikationsdatum: 2019-07-19

Beschreibung: Plasma instabilities excited in collisionless shocks are responsible for particle acceleration. We have investigated the particle acceleration and shock structure associated with an unmagnetized relativistic electron-positron jet propagating into an unmagnetized electron-positron plasma. Cold jet electrons are thermalized and slowed while the ambient electrons are swept up to create a partially developed hydrodynamic-like shock structure. In the leading shock, electron density increases by a factor of about 3.5 in the simulation frame. Strong electromagnetic fields are generated in the trailing shock and provide an emission site. This simulation corresponds to a case for gamma-ray burst afterglows. We will simulate colliding shells as an internal shock model for prompt emission. Turbulent magnetic fields generated by a slower shell will be collided by a faster shell. These magnetic fields contribute to the electron s transverse deflection behind the shock. We calculate the radiation from deflected electrons in the turbulent magnetic fields. The properties of this radiation may be important to understanding the complex time evolution and/or spectral structure in gamma-ray bursts

Schlagwort(e): Nuclear Physics

Materialart: M10-0748 , 38th COSPAR Scientific Assembly/Committee on Space Research (COSPAR); Jul 18, 2010 - Jul 25, 2010; Bremen; Germany

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Radiation from Shock-Accelerated Particles (2012)

Nishikawa, Ken-ichi ; Mizuno, Y. ; Zhang, B. ; [weitere]

In: CASI

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Publikationsdatum: 2019-07-13

Beschreibung: Plasma instabilities excited in collisionless shocks are responsible for particle acceleration, generation of magnetic fields , and associated radiation. We have investigated the particle acceleration and shock structure associated with an unmagnetized relativistic jet propagating into an unmagnetized plasma. Cold jet electrons are thermalized and slowed while the ambient electrons are swept up to create a partially developed hydrodynamic-like shock structure. The shock structure depends on the composition of the jet and ambient plasma (electron-positron or electron-ions). Strong electromagnetic fields are generated in the reverse , jet shock and provide an emission site. These magnetic fields contribute to the electron's transverse deflection behind the shock. We have calculated, self-consistently, the radiation from electrons accelerated in the turbulent magnetic fields. We found that the synthetic spectra depend on the Lorentz factor of the jet, its thermal temperature and strength of the generated magnetic fields. The detailed properties of the radiation are important for understanding the complex time evolution and/or spectral structure in gamma-ray bursts, relativistic jet shocks, and supernova remnants

Schlagwort(e): Plasma Physics

Materialart: M12-1864 , Gamma-Ray Bursts 2012 Conference (GRB2012); May 07, 2012 - May 11, 2012; Minich; Germany

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Rapid Variability Generated at Relativistic Shocks Simulated by Particle-in- Cell Code (2010)

Nordlund, A. ; Niemiec, J. ; Mizuno, Y. ; [weitere]

In: CASI

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Publikationsdatum: 2019-07-19

Beschreibung: Plasma instabilities excited in collisionless shocks are responsible for particle acceleration. We have investigated the particle acceleration and shock structure associated with an unmagnetized relativistic electronpositron jet propagating into an unmagnetized electron-positron plasma. Cold jet electrons are thermalized and slowed while the ambient electrons are swept up to create a partially developed hydrodynamic-like shock structure. In the leading shock, electron density increases by a factor of about 3.5 in the simulation frame. Strong electromagnetic fields are generated in the trailing shock and provide an emission site. These magnetic fields contribute to the electrons transverse deflection behind the shock. We calculate the radiation from deflected electrons in the turbulent magnetic fields. Radiation from electrons near the trailing shock will be variable due to fluctuations of density and electromagnetic fields. The properties of this radiation may be important for rapid variability in relativistic jets such as AGN jets and blazars.

Schlagwort(e): Nuclear Physics

Materialart: M10-0746 , 38th COSPAR Scientific Assembly/Committee on Space Research (COSPAR); Jul 18, 2010 - Jul 25, 2010; Bremen; Germany

Format: application/pdf

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