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23 April 2024 |
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Electron Acceleration and Synchrotron Radiation in Decelerating Plasmoids | | Charles D. Dermer
; James Chiang
; | | Date: |
3 Dec 1997 | | Subject: | astro-ph | | Affiliation: | NRL | | Abstract: | An equation is derived to calculate the dynamics of relativistic magnetized plasma which decelerates by sweeping up matter from the ISM. Reduction to the non-radiative and radiative regimes is demonstrated. The evolving electron momentum distribution function in the comoving fluid frame is used to calculate the observed synchrotron radiation spectrum, assuming that a fixed fraction of the comoving proton power is instantaneously transformed into a power-law, "shock"-like electron distribution function. This permits an analytic solution for the case of a relativistic plasmoid with a constant internal magnetic field. Breaks in the temporal behavior of the primary burst emission and long wavelength afterglows occur on two time scales for external ISM density distributions. The first represents the time when the outflow sweeps up approximately M/G_0 of material from the ISM, where M is the mass in the outflow ejecta and G_0 is the initial Lorentz factor of the plasmoid. The second represents the time when synchrotron cooling begins strongly to regulate the number of nonthemal electrons that are producing radiation which is observed at a given energy. Results are applied to GRB and blazar variability. The slopes of the time profiles of the X-ray and optical light cuves of the afterglows of GRB 970228 and GRB 970508 are explained by injection of hard electron spectra with indices $s < 2$ in a deceleration regime near the radiative limit. We also propose that blazar flares are due to the transformation of the directed kinetic energy of the plasmoid when interacting with the external medium, as would occur if relativistic outflows pass through clouds orbiting the central supermassive black hole. | | Source: | arXiv, astro-ph/9712052 | | Services: | Forum | Review | PDF | Favorites | |
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