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Microphysics and dynamics of the Gamma-Ray Burst 121024A

Microphysics and dynamics of the Gamma-Ray Burst 121024A
Microphysics and dynamics of the Gamma-Ray Burst 121024A

Aims: the aim of the study is to constrain the physics of gamma-ray bursts (GRBs) by analysing the multi-wavelength afterglow data set of GRB 121024A that covers the full range from radio to X-rays.

Methods: using multi-epoch broad-band observations of the GRB 121024A afterglow, we measured the three characteristic break frequencies of the synchrotron spectrum. We used six epochs of combined XRT and GROND data to constrain the temporal slopes, the dust extinction, the X-ray absorption, and the spectral slope with high accuracy. Two more epochs of combined data from XRT, GROND, APEX, CARMA, and EVLA were used to set constraints on the break frequencies and therefore on the micro-physical and dynamical parameters.

Results: the XRT and GROND light curves show a simultaneous and achromatic break at around 49 ks. As a result, the crossing of the synchrotron cooling break is no suitable explanation for the break in the light curve. The multi-wavelength data allow us to test two plausible scenarios explaining the break: a jet break, and the end of energy injection. The jet-break scenario requires a hard electron spectrum, a very low cooling break frequency, and a non-spreading jet. The energy injection avoids these problems, but requires ϵe > 1 (k = 2), spherical outflow, and ϵB < 10-9.

Conclusions: in light of the extreme microphysical parameters required by the energy-injection model, we favour a jet-break scenario where νm < νsa to explain the observations. This scenario gives physically meaningful microphysical parameters, and it also naturally explains the reported detection of linear and circular polarisation.

astro-ph.HE
0004-6361
Varela, K.
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Eerten, H. van
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Greiner, J.
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Schady, P.
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Elliott, J.
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Sudilovsky, V.
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Krühler, T.
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van der Horst, A.J.
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Bolmer, J.
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Knust, F.
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Agurto, C.
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Azagra, F.
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Belloche, A.
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Bertoldi, F.
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De Breuck, C.
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Delvaux, C.
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Filgas, R.
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Graham, J.F.
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Kann, D.A.
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Klose, S.
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Menten, K.M.
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Nicuesa Guelbenzu, A.
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Rau, A.
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Rossi, A.
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Schmidl, S.
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Schuller, F.
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Schweyer, T.
04f77381-d0ec-4cff-8581-4cf59184b3fd
Tanga, M.
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Weiss, A.
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Wiseman, P.
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Wyrowski, F.
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Varela, K.
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Eerten, H. van
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Greiner, J.
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Schady, P.
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Elliott, J.
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Sudilovsky, V.
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Krühler, T.
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van der Horst, A.J.
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Bolmer, J.
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Knust, F.
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Agurto, C.
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Azagra, F.
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Belloche, A.
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Bertoldi, F.
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De Breuck, C.
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Delvaux, C.
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Filgas, R.
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Graham, J.F.
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Kann, D.A.
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Klose, S.
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Menten, K.M.
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Nicuesa Guelbenzu, A.
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Rau, A.
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Rossi, A.
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Schmidl, S.
853b9188-0d1c-473f-bf77-a4227072d2b8
Schuller, F.
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Schweyer, T.
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Tanga, M.
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Weiss, A.
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Wiseman, P.
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Wyrowski, F.
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Varela, K., Eerten, H. van, Greiner, J., Schady, P., Elliott, J., Sudilovsky, V., Krühler, T., van der Horst, A.J., Bolmer, J., Knust, F., Agurto, C., Azagra, F., Belloche, A., Bertoldi, F., De Breuck, C., Delvaux, C., Filgas, R., Graham, J.F., Kann, D.A., Klose, S., Menten, K.M., Nicuesa Guelbenzu, A., Rau, A., Rossi, A., Schmidl, S., Schuller, F., Schweyer, T., Tanga, M., Weiss, A., Wiseman, P. and Wyrowski, F. (2016) Microphysics and dynamics of the Gamma-Ray Burst 121024A. Astronomy & Astrophysics, 589, [A37]. (doi:10.1051/0004-6361/201526260).

Record type: Article

Abstract

Aims: the aim of the study is to constrain the physics of gamma-ray bursts (GRBs) by analysing the multi-wavelength afterglow data set of GRB 121024A that covers the full range from radio to X-rays.

Methods: using multi-epoch broad-band observations of the GRB 121024A afterglow, we measured the three characteristic break frequencies of the synchrotron spectrum. We used six epochs of combined XRT and GROND data to constrain the temporal slopes, the dust extinction, the X-ray absorption, and the spectral slope with high accuracy. Two more epochs of combined data from XRT, GROND, APEX, CARMA, and EVLA were used to set constraints on the break frequencies and therefore on the micro-physical and dynamical parameters.

Results: the XRT and GROND light curves show a simultaneous and achromatic break at around 49 ks. As a result, the crossing of the synchrotron cooling break is no suitable explanation for the break in the light curve. The multi-wavelength data allow us to test two plausible scenarios explaining the break: a jet break, and the end of energy injection. The jet-break scenario requires a hard electron spectrum, a very low cooling break frequency, and a non-spreading jet. The energy injection avoids these problems, but requires ϵe > 1 (k = 2), spherical outflow, and ϵB < 10-9.

Conclusions: in light of the extreme microphysical parameters required by the energy-injection model, we favour a jet-break scenario where νm < νsa to explain the observations. This scenario gives physically meaningful microphysical parameters, and it also naturally explains the reported detection of linear and circular polarisation.

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1503.07513v3 - Accepted Manuscript
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More information

Accepted/In Press date: 1 February 2016
e-pub ahead of print date: 11 April 2016
Keywords: astro-ph.HE

Identifiers

Local EPrints ID: 484047
URI: http://eprints.soton.ac.uk/id/eprint/484047
DOI: doi:10.1051/0004-6361/201526260
ISSN: 0004-6361
PURE UUID: 69ac7dd0-138c-4617-805b-c592d4620d8f
ORCID for P. Wiseman: ORCID iD orcid.org/0000-0002-3073-1512

Catalogue record

Date deposited: 09 Nov 2023 17:46
Last modified: 18 Mar 2024 03:43

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Contributors

Author: K. Varela
Author: H. van Eerten
Author: J. Greiner
Author: P. Schady
Author: J. Elliott
Author: V. Sudilovsky
Author: T. Krühler
Author: A.J. van der Horst
Author: J. Bolmer
Author: F. Knust
Author: C. Agurto
Author: F. Azagra
Author: A. Belloche
Author: F. Bertoldi
Author: C. De Breuck
Author: C. Delvaux
Author: R. Filgas
Author: J.F. Graham
Author: D.A. Kann
Author: S. Klose
Author: K.M. Menten
Author: A. Nicuesa Guelbenzu
Author: A. Rau
Author: A. Rossi
Author: S. Schmidl
Author: F. Schuller
Author: T. Schweyer
Author: M. Tanga
Author: A. Weiss
Author: P. Wiseman ORCID iD
Author: F. Wyrowski

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