Modeling the shock-cloud interaction in SN 1006: Unveiling the origin of nonthermal X-ray and γ-ray emission

Context. The supernova remnant SN 1006 is a source of high-energy particles and its southwestern limb is interacting with a dense ambient cloud, thus is a promising region for γ-ray hadronic emission. Aims. We aim at describing the physics and the nonthermal emission associated with the shock-cloud...

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Autores principales: Miceli, M., Orlando, S., Pereira, V., Acero, F., Katsuda, S., Decourchelle, A., Winkler, F.P., Bonito, R., Reale, F., Peres, G., Li, J., Dubner, G.
Formato: JOUR
Materias:
Acceleration of particles
ISM: clouds
ISM: individual objects: SN 1006
ISM: supernova remnants
Magnetohydrodynamics (MHD)
X-rays: ISM
Cutoff frequency
Magnetohydrodynamics
Supernovae
Synchrotron radiation
ISM : clouds
Ism: individual objects: sn 1006
X rays: ISM
Gamma rays
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_00046361_v593_n_p_Miceli
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Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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spelling todo:paper_00046361_v593_n_p_Miceli2023-10-03T14:01:00Z Modeling the shock-cloud interaction in SN 1006: Unveiling the origin of nonthermal X-ray and γ-ray emission Miceli, M. Orlando, S. Pereira, V. Acero, F. Katsuda, S. Decourchelle, A. Winkler, F.P. Bonito, R. Reale, F. Peres, G. Li, J. Dubner, G. Acceleration of particles ISM: clouds ISM: individual objects: SN 1006 ISM: supernova remnants Magnetohydrodynamics (MHD) X-rays: ISM Cutoff frequency Magnetohydrodynamics Supernovae Synchrotron radiation Acceleration of particles ISM : clouds Ism: individual objects: sn 1006 ISM: supernova remnants X rays: ISM Gamma rays Context. The supernova remnant SN 1006 is a source of high-energy particles and its southwestern limb is interacting with a dense ambient cloud, thus is a promising region for γ-ray hadronic emission. Aims. We aim at describing the physics and the nonthermal emission associated with the shock-cloud interaction to derive the physical parameters of the cloud (poorly constrained by the data analysis), to ascertain the origin of the observed spatial variations in the spectral properties of the X-ray synchrotron emission, and to predict spectral and morphological features of the resulting γ-ray emission. Methods. We performed 3D magnetohydrodynamic simulations modeling the evolution of SN 1006 and its interaction with the ambient cloud, and explored different model setups. By applying the REMLIGHT code on the model results, we synthesized the synchrotron X-ray emission and compared it with actual observations to constrain the parameters of the model. We also synthesized the leptonic and hadronic γ-ray emission from the models, deriving constraints on the energy content of the hadrons accelerated at the southwestern limb. Results. We found that the impact of the SN 1006 shock front with a uniform cloud with density 0.5 cm -3 can explain the observed morphology, the azimuthal variations of the cutoff frequency of the X-ray synchrotron emission, and the shock proper motion in the interaction region. Our results show that the current upper limit for the total hadronic energy in the southwestern limb is 2.5 × 10 49 erg. © 2016 ESO. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_00046361_v593_n_p_Miceli
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Acceleration of particles
ISM: clouds
ISM: individual objects: SN 1006
ISM: supernova remnants
Magnetohydrodynamics (MHD)
X-rays: ISM
Cutoff frequency
Magnetohydrodynamics
Supernovae
Synchrotron radiation
Acceleration of particles
ISM : clouds
Ism: individual objects: sn 1006
ISM: supernova remnants
X rays: ISM
Gamma rays
spellingShingle Acceleration of particles
ISM: clouds
ISM: individual objects: SN 1006
ISM: supernova remnants
Magnetohydrodynamics (MHD)
X-rays: ISM
Cutoff frequency
Magnetohydrodynamics
Supernovae
Synchrotron radiation
Acceleration of particles
ISM : clouds
Ism: individual objects: sn 1006
ISM: supernova remnants
X rays: ISM
Gamma rays
Miceli, M.
Orlando, S.
Pereira, V.
Acero, F.
Katsuda, S.
Decourchelle, A.
Winkler, F.P.
Bonito, R.
Reale, F.
Peres, G.
Li, J.
Dubner, G.
Modeling the shock-cloud interaction in SN 1006: Unveiling the origin of nonthermal X-ray and γ-ray emission
topic_facet Acceleration of particles
ISM: clouds
ISM: individual objects: SN 1006
ISM: supernova remnants
Magnetohydrodynamics (MHD)
X-rays: ISM
Cutoff frequency
Magnetohydrodynamics
Supernovae
Synchrotron radiation
Acceleration of particles
ISM : clouds
Ism: individual objects: sn 1006
ISM: supernova remnants
X rays: ISM
Gamma rays
description Context. The supernova remnant SN 1006 is a source of high-energy particles and its southwestern limb is interacting with a dense ambient cloud, thus is a promising region for γ-ray hadronic emission. Aims. We aim at describing the physics and the nonthermal emission associated with the shock-cloud interaction to derive the physical parameters of the cloud (poorly constrained by the data analysis), to ascertain the origin of the observed spatial variations in the spectral properties of the X-ray synchrotron emission, and to predict spectral and morphological features of the resulting γ-ray emission. Methods. We performed 3D magnetohydrodynamic simulations modeling the evolution of SN 1006 and its interaction with the ambient cloud, and explored different model setups. By applying the REMLIGHT code on the model results, we synthesized the synchrotron X-ray emission and compared it with actual observations to constrain the parameters of the model. We also synthesized the leptonic and hadronic γ-ray emission from the models, deriving constraints on the energy content of the hadrons accelerated at the southwestern limb. Results. We found that the impact of the SN 1006 shock front with a uniform cloud with density 0.5 cm -3 can explain the observed morphology, the azimuthal variations of the cutoff frequency of the X-ray synchrotron emission, and the shock proper motion in the interaction region. Our results show that the current upper limit for the total hadronic energy in the southwestern limb is 2.5 × 10 49 erg. © 2016 ESO.
format JOUR
author Miceli, M.
Orlando, S.
Pereira, V.
Acero, F.
Katsuda, S.
Decourchelle, A.
Winkler, F.P.
Bonito, R.
Reale, F.
Peres, G.
Li, J.
Dubner, G.
author_facet Miceli, M.
Orlando, S.
Pereira, V.
Acero, F.
Katsuda, S.
Decourchelle, A.
Winkler, F.P.
Bonito, R.
Reale, F.
Peres, G.
Li, J.
Dubner, G.
author_sort Miceli, M.
title Modeling the shock-cloud interaction in SN 1006: Unveiling the origin of nonthermal X-ray and γ-ray emission
title_short Modeling the shock-cloud interaction in SN 1006: Unveiling the origin of nonthermal X-ray and γ-ray emission
title_full Modeling the shock-cloud interaction in SN 1006: Unveiling the origin of nonthermal X-ray and γ-ray emission
title_fullStr Modeling the shock-cloud interaction in SN 1006: Unveiling the origin of nonthermal X-ray and γ-ray emission
title_full_unstemmed Modeling the shock-cloud interaction in SN 1006: Unveiling the origin of nonthermal X-ray and γ-ray emission
title_sort modeling the shock-cloud interaction in sn 1006: unveiling the origin of nonthermal x-ray and γ-ray emission
url http://hdl.handle.net/20.500.12110/paper_00046361_v593_n_p_Miceli
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