Electrons' energy in GRB afterglows implied by radio peaks

Paz Beniamini, Alexander J. van der Horst

פרסום מחקרי: פרסום בכתב עתמאמרביקורת עמיתים

תקציר

Gamma-ray burst (GRB) afterglows have been observed across the electromagnetic spectrum, and physical parameters of GRB jets and their surroundings have been derived using broad-band modelling. While well-sampled light curves across the broad-band spectrum are necessary to constrain all the physical parameters, some can be strongly constrained by the right combination of just a few observables, almost independently of the other unknowns. We present a method involving the peaks of radio light curves to constrain the fraction of shock energy that resides in electrons, ∈e. This parameter is an important ingredient for understanding the microphysics of relativistic shocks. Based on a sample of 36 radio afterglows, we find ∈e has a narrow distribution centred around 0.13-0.15. Our method is suggested as a diagnostic tool for determining ∈e, and to help constrain the broad-band modelling of GRB afterglows. Some earlier measurements of the spreads in parameter values for ∈e, the kinetic energy of the shock and the density of the circumburst medium, based on broad-band modelling across the entire spectrum, are at odds with our analysis of radio peaks. This could be due to different modelling methods and assumptions, and possibly missing ingredients in past and current modelling efforts. Furthermore, we show that observations at≳10 GHz performed 0.3- 30 d after the GRB trigger are best suited for pinpointing the synchrotron peak frequency, and, consequently, ∈e. At the same time, observations at lower radio frequencies can pin down the synchrotron self-absorption frequency and help constrain the other physical parameters of GRB afterglows.

שפה מקוריתאנגלית
עמודים (מ-עד)3161-3168
מספר עמודים8
כתב עתMonthly Notices of the Royal Astronomical Society
כרך472
מספר גיליון3
מזהי עצם דיגיטלי (DOIs)
סטטוס פרסוםפורסם - 2017
פורסם באופן חיצוניכן

הערה ביבליוגרפית

Publisher Copyright:
© 2017 The Authors.

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