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Microscopic Processes On Radiation from Accelerated Particles in Relativistic Jets (2009)

Hartmann, D. H. ; Zhang, B. ; Nordlund, A. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-19

Description: Nonthermal radiation observed from astrophysical systems containing relativistic jets and shocks, e.g., gamma-ray bursts (GRBs), active galactic nuclei (AGNs), and Galactic microquasar systems usually have power-law emission spectra. Recent PIC simulations of relativistic electron-ion (electro-positron) jets injected into a stationary medium show that particle acceleration occurs within the downstream jet. In the collisionless relativistic shock particle acceleration is due to plasma waves and their associated instabilities (e.g., the Buneman instability, other two-streaming instability, and the Weibel (filamentation) instability) created in the shocks are responsible for particle (electron, positron, and ion) acceleration. The simulation results show that the Weibel instability is responsible for generating and amplifying highly nonuniform, small-scale magnetic fields. These magnetic fields contribute to the electron's transverse deflection behind the jet head. The jitter'' radiation from deflected electrons has different properties than synchrotron radiation which is calculated in a uniform magnetic field. This jitter radiation may be important to understanding the complex time evolution and/or spectral structure in gamma-ray bursts, relativistic jets, and supernova remnants.

Keywords: Astrophysics

Type: M09-0403 , Modern Challenges in Nonliner Plasma Physics; Jun 15, 2009 - Jun 19, 2009; Halkidiki; Greece

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Simulation of Relativistic Shocks and Associated Radiation from Turbulent Magnetic Fields (2009)

Zhang, B. ; Sol, H. ; Fishman, J. F. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Plasma instabilities (e.g., Buneman, Weibel and other two-stream instabilities) excited in collisionless shocks are responsible for particle (electron, positron, and ion) acceleration. Using a new 3-D relativistic particle-in-cell code, we have investigated the particle acceleration and shock structure associated with an unmagnetized relativistic electron-positron jet propagating into an unmagnetized electron-positron plasma. The simulation has been performed using a long simulation system in order to study the nonlinear stages of the Weibel instability, the particle acceleration mechanism, and the shock structure. Cold jet electrons are thermalized and slowed while the ambient electrons are swept up to create a partially developed hydrodynamic (HD) like shock structure. In the leading shock, electron density increases by a factor of 〈_ 3.5 in the simulation frame. Strong electromagnetic fields are generated in the trailing shock and provide an emission site. We discuss the possible implication of our simulation results within the AGN and GRB context. We have calculated the time evolution of the spectrum from two electrons propagating in a uniform parallel magnetic field to verify the technique. The same technique will be used to calculate radiation from accelerated electrons (positrons) in turbulent magnetic fields generated by Weibel instability.

Keywords: Nuclear Physics

Type: M09-0458 , M09-0459 , 4th International Conference on Numerical Modeling of Space Plasma Flows (ASTRONUM 2009); Jun 29, 2009 - Jul 03, 2009; Chamonix; France

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Simulation of Relativistic Shocks and Associated Radiation from Turbulent Magnetic Fields (2009)

Medvedev, M. ; Mizuno, Y. ; Zhang, B. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-19

Description: 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. These magnetic fields contribute to the electron's transverse deflection behind the shock. The jitter'' radiation from deflected electrons in turbulent magnetic fields has different properties than synchrotron radiation, which is calculated in a uniform magnetic field. This jitter radiation may be important for understanding the complex time evolution and/or spectral structure in gamma-ray bursts, relativistic jets in general, and supernova remnants. New spectra based on simulations will be presented.

Keywords: Nuclear Physics

Type: M10-0111 , M10-0175 , High Energy Phenomena in Relativistic Outflows II; Oct 26, 2009 - Oct 30, 2009; Buenes Aires; South Africa|4th International Conference on Numerical Modeling of Space Plasma Flow; Jun 29, 2009 - Jul 03, 2009; Chamonix; France

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