Constraining the cosmic-ray pressure in the inner Virgo Cluster using H.E.S.S. observations of M 87

F. Aharonian; F. Ait Benkhali; C. Arcaro; J. Aschersleben; M. Backes; V. Barbosa Martins; R. Batzofin; Y. Becherini; D. Berge; K. Bernlöhr; B. Bi; M. Böttcher; C. Boisson; J. Bolmont; J. Borowska; F. Bradascio; M. Breuhaus; R. Brose; F. Brun; B. Bruno; T. Bulik; C. Burger-Scheidlin; T. Bylund; S. Caroff; S. Casanova; R. Cecil; J. Celic; M. Cerruti; T. Chand; S. Chandra; A. Chen; J. Chibueze; O. Chibueze; G. Cotter; J. Damascene Mbarubucyeye; A. Djannati-Ataï; K. Egberts; J. -P. Ernenwein; G. Fichet de Clairfontaine; Miroslav Filipovic; G. Fontaine; M. Füßling; S. Funk; S. Gabici; S. Ghafourizadeh; G. Giavitto; D. Glawion; J. F. Glicenstein; P. Goswami; G. Grolleron; null et al

Constraining the cosmic-ray pressure in the inner Virgo Cluster using H.E.S.S. observations of M 87

F. Aharonian, F. Ait Benkhali, C. Arcaro, J. Aschersleben, M. Backes, V. Barbosa Martins, R. Batzofin, Y. Becherini, D. Berge, K. Bernlöhr, B. Bi, M. Böttcher, C. Boisson, J. Bolmont, J. Borowska, F. Bradascio, M. Breuhaus, R. Brose, F. Brun, B. BrunoT. Bulik, C. Burger-Scheidlin, T. Bylund, S. Caroff, S. Casanova, R. Cecil, J. Celic, M. Cerruti, T. Chand, S. Chandra, A. Chen, J. Chibueze, O. Chibueze, G. Cotter, J. Damascene Mbarubucyeye, A. Djannati-Ataï, K. Egberts, J. -P. Ernenwein, G. Fichet de Clairfontaine, Miroslav Filipovic, G. Fontaine, M. Füßling, S. Funk, S. Gabici, S. Ghafourizadeh, G. Giavitto, D. Glawion, J. F. Glicenstein, P. Goswami, G. Grolleron, et al

Western Sydney University

Research output: Contribution to journal › Article › peer-review

Abstract

The origin of the gamma-ray emission from M 87 is currently a matter of debate. This work aims to localize the very high-energy (VHE; 100 GeV - 100 TeV) gamma-ray emission from M 87 and probe a potential extended hadronic emission component in the inner Virgo Cluster. The search for a steady and extended gamma-ray signal around M 87 can constrain the cosmic-ray energy density and the pressure exerted by the cosmic rays onto the intracluster medium and allow us to investigate the role of cosmic rays in the active galactic nucleus feedback as a heating mechanism in the Virgo Cluster. The High Energy Stereoscopic System (H.E.S.S.) telescopes are sensitive to VHE gamma rays and have been used to observe M 87 since 2004. We utilized a Bayesian block analysis to identify M 87 emission states with H.E.S.S. observations from 2004 to 2021, dividing them into low, intermediate, and high states. Because of the causality argument, an extended (â‰³1 kpc) signal is allowed only in steady emission states. Hence, we fitted the morphology of the 120 h low-state data and find no significant gamma-ray extension. Therefore, we derive for the low state an upper limit of 58"² (corresponding to â‰ˆ4.6 kpc) in the extension of a single-component morphological model described by a rotationally symmetric 2D Gaussian model at the 99.7% confidence level. Our results exclude the radio lobes (â‰ˆ30 kpc) as the principal component of the VHE gamma-ray emission from the low state of M 87. The gamma-ray emission is compatible with a single emission region at the radio core of M 87. These results, with the help of two multiple-component models, constrain the maximum cosmic-ray to thermal pressure ratio to XCR, max.â‰²0.32 and the total energy in cosmic-ray protons to UCR â‰² 5Ã—1058 erg in the inner 20 kpc of the Virgo Cluster for an assumed cosmic-ray proton power-law distribution in momentum with spectral index Î±p=2.1.

Original language	English
Article number	A138
Number of pages	10
Journal	Astronomy and Astrophysics
Volume	675
Publication status	Published - 1 Jul 2023

Bibliographical note

Publisher Copyright:
© The Authors 2023

Open Access - Access Right Statement

Open Access article, published by EDP Sciences, under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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Aharonian, F., Ait Benkhali, F., Arcaro, C., Aschersleben, J., Backes, M., Barbosa Martins, V., Batzofin, R., Becherini, Y., Berge, D., Bernlöhr, K., Bi, B., Böttcher, M., Boisson, C., Bolmont, J., Borowska, J., Bradascio, F., Breuhaus, M., Brose, R., Brun, F., ... et al (2023). Constraining the cosmic-ray pressure in the inner Virgo Cluster using H.E.S.S. observations of M 87. Astronomy and Astrophysics, 675, Article A138.

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title = "Constraining the cosmic-ray pressure in the inner Virgo Cluster using H.E.S.S. observations of M 87",

abstract = "The origin of the gamma-ray emission from M 87 is currently a matter of debate. This work aims to localize the very high-energy (VHE; 100 GeV - 100 TeV) gamma-ray emission from M 87 and probe a potential extended hadronic emission component in the inner Virgo Cluster. The search for a steady and extended gamma-ray signal around M 87 can constrain the cosmic-ray energy density and the pressure exerted by the cosmic rays onto the intracluster medium and allow us to investigate the role of cosmic rays in the active galactic nucleus feedback as a heating mechanism in the Virgo Cluster. The High Energy Stereoscopic System (H.E.S.S.) telescopes are sensitive to VHE gamma rays and have been used to observe M 87 since 2004. We utilized a Bayesian block analysis to identify M 87 emission states with H.E.S.S. observations from 2004 to 2021, dividing them into low, intermediate, and high states. Because of the causality argument, an extended ({\^a}‰³1 kpc) signal is allowed only in steady emission states. Hence, we fitted the morphology of the 120 h low-state data and find no significant gamma-ray extension. Therefore, we derive for the low state an upper limit of 58{"}² (corresponding to {\^a}‰ˆ4.6 kpc) in the extension of a single-component morphological model described by a rotationally symmetric 2D Gaussian model at the 99.7% confidence level. Our results exclude the radio lobes ({\^a}‰ˆ30 kpc) as the principal component of the VHE gamma-ray emission from the low state of M 87. The gamma-ray emission is compatible with a single emission region at the radio core of M 87. These results, with the help of two multiple-component models, constrain the maximum cosmic-ray to thermal pressure ratio to XCR, max.{\^a}‰²0.32 and the total energy in cosmic-ray protons to UCR {\^a}‰² 5{\~A}—1058 erg in the inner 20 kpc of the Virgo Cluster for an assumed cosmic-ray proton power-law distribution in momentum with spectral index {\^I}±p=2.1.",

author = "F. Aharonian and {Ait Benkhali}, F. and C. Arcaro and J. Aschersleben and M. Backes and {Barbosa Martins}, V. and R. Batzofin and Y. Becherini and D. Berge and K. Bernl{\"o}hr and B. Bi and M. B{\"o}ttcher and C. Boisson and J. Bolmont and J. Borowska and F. Bradascio and M. Breuhaus and R. Brose and F. Brun and B. Bruno and T. Bulik and C. Burger-Scheidlin and T. Bylund and S. Caroff and S. Casanova and R. Cecil and J. Celic and M. Cerruti and T. Chand and S. Chandra and A. Chen and J. Chibueze and O. Chibueze and G. Cotter and {Damascene Mbarubucyeye}, J. and A. Djannati-Ata{\"i} and K. Egberts and Ernenwein, {J. -P.} and {Fichet de Clairfontaine}, G. and Miroslav Filipovic and G. Fontaine and M. F{\"u}{\ss}ling and S. Funk and S. Gabici and S. Ghafourizadeh and G. Giavitto and D. Glawion and Glicenstein, {J. F.} and P. Goswami and G. Grolleron and {et al}",

note = "Publisher Copyright: {\textcopyright} The Authors 2023",

year = "2023",

month = jul,

day = "1",

language = "English",

volume = "675",

journal = "Astronomy and Astrophysics",

issn = "0004-6361",

publisher = "EDP Sciences",

}

Aharonian, F, Ait Benkhali, F, Arcaro, C, Aschersleben, J, Backes, M, Barbosa Martins, V, Batzofin, R, Becherini, Y, Berge, D, Bernlöhr, K, Bi, B, Böttcher, M, Boisson, C, Bolmont, J, Borowska, J, Bradascio, F, Breuhaus, M, Brose, R, Brun, F, Bruno, B, Bulik, T, Burger-Scheidlin, C, Bylund, T, Caroff, S, Casanova, S, Cecil, R, Celic, J, Cerruti, M, Chand, T, Chandra, S, Chen, A, Chibueze, J, Chibueze, O, Cotter, G, Damascene Mbarubucyeye, J, Djannati-Ataï, A, Egberts, K, Ernenwein, J-P, Fichet de Clairfontaine, G, Filipovic, M, Fontaine, G, Füßling, M, Funk, S, Gabici, S, Ghafourizadeh, S, Giavitto, G, Glawion, D, Glicenstein, JF, Goswami, P, Grolleron, G & et al 2023, 'Constraining the cosmic-ray pressure in the inner Virgo Cluster using H.E.S.S. observations of M 87', Astronomy and Astrophysics, vol. 675, A138.

TY - JOUR

T1 - Constraining the cosmic-ray pressure in the inner Virgo Cluster using H.E.S.S. observations of M 87

AU - Aharonian, F.

AU - Ait Benkhali, F.

AU - Arcaro, C.

AU - Aschersleben, J.

AU - Backes, M.

AU - Barbosa Martins, V.

AU - Batzofin, R.

AU - Becherini, Y.

AU - Berge, D.

AU - Bernlöhr, K.

AU - Bi, B.

AU - Böttcher, M.

AU - Boisson, C.

AU - Bolmont, J.

AU - Borowska, J.

AU - Bradascio, F.

AU - Breuhaus, M.

AU - Brose, R.

AU - Brun, F.

AU - Bruno, B.

AU - Bulik, T.

AU - Burger-Scheidlin, C.

AU - Bylund, T.

AU - Caroff, S.

AU - Casanova, S.

AU - Cecil, R.

AU - Celic, J.

AU - Cerruti, M.

AU - Chand, T.

AU - Chandra, S.

AU - Chen, A.

AU - Chibueze, J.

AU - Chibueze, O.

AU - Cotter, G.

AU - Damascene Mbarubucyeye, J.

AU - Djannati-Ataï, A.

AU - Egberts, K.

AU - Ernenwein, J. -P.

AU - Fichet de Clairfontaine, G.

AU - Filipovic, Miroslav

AU - Fontaine, G.

AU - Füßling, M.

AU - Funk, S.

AU - Gabici, S.

AU - Ghafourizadeh, S.

AU - Giavitto, G.

AU - Glawion, D.

AU - Glicenstein, J. F.

AU - Goswami, P.

AU - Grolleron, G.

AU - et al, null

PY - 2023/7/1

Y1 - 2023/7/1

N2 - The origin of the gamma-ray emission from M 87 is currently a matter of debate. This work aims to localize the very high-energy (VHE; 100 GeV - 100 TeV) gamma-ray emission from M 87 and probe a potential extended hadronic emission component in the inner Virgo Cluster. The search for a steady and extended gamma-ray signal around M 87 can constrain the cosmic-ray energy density and the pressure exerted by the cosmic rays onto the intracluster medium and allow us to investigate the role of cosmic rays in the active galactic nucleus feedback as a heating mechanism in the Virgo Cluster. The High Energy Stereoscopic System (H.E.S.S.) telescopes are sensitive to VHE gamma rays and have been used to observe M 87 since 2004. We utilized a Bayesian block analysis to identify M 87 emission states with H.E.S.S. observations from 2004 to 2021, dividing them into low, intermediate, and high states. Because of the causality argument, an extended (â‰³1 kpc) signal is allowed only in steady emission states. Hence, we fitted the morphology of the 120 h low-state data and find no significant gamma-ray extension. Therefore, we derive for the low state an upper limit of 58"² (corresponding to â‰ˆ4.6 kpc) in the extension of a single-component morphological model described by a rotationally symmetric 2D Gaussian model at the 99.7% confidence level. Our results exclude the radio lobes (â‰ˆ30 kpc) as the principal component of the VHE gamma-ray emission from the low state of M 87. The gamma-ray emission is compatible with a single emission region at the radio core of M 87. These results, with the help of two multiple-component models, constrain the maximum cosmic-ray to thermal pressure ratio to XCR, max.â‰²0.32 and the total energy in cosmic-ray protons to UCR â‰² 5Ã—1058 erg in the inner 20 kpc of the Virgo Cluster for an assumed cosmic-ray proton power-law distribution in momentum with spectral index Î±p=2.1.

AB - The origin of the gamma-ray emission from M 87 is currently a matter of debate. This work aims to localize the very high-energy (VHE; 100 GeV - 100 TeV) gamma-ray emission from M 87 and probe a potential extended hadronic emission component in the inner Virgo Cluster. The search for a steady and extended gamma-ray signal around M 87 can constrain the cosmic-ray energy density and the pressure exerted by the cosmic rays onto the intracluster medium and allow us to investigate the role of cosmic rays in the active galactic nucleus feedback as a heating mechanism in the Virgo Cluster. The High Energy Stereoscopic System (H.E.S.S.) telescopes are sensitive to VHE gamma rays and have been used to observe M 87 since 2004. We utilized a Bayesian block analysis to identify M 87 emission states with H.E.S.S. observations from 2004 to 2021, dividing them into low, intermediate, and high states. Because of the causality argument, an extended (â‰³1 kpc) signal is allowed only in steady emission states. Hence, we fitted the morphology of the 120 h low-state data and find no significant gamma-ray extension. Therefore, we derive for the low state an upper limit of 58"² (corresponding to â‰ˆ4.6 kpc) in the extension of a single-component morphological model described by a rotationally symmetric 2D Gaussian model at the 99.7% confidence level. Our results exclude the radio lobes (â‰ˆ30 kpc) as the principal component of the VHE gamma-ray emission from the low state of M 87. The gamma-ray emission is compatible with a single emission region at the radio core of M 87. These results, with the help of two multiple-component models, constrain the maximum cosmic-ray to thermal pressure ratio to XCR, max.â‰²0.32 and the total energy in cosmic-ray protons to UCR â‰² 5Ã—1058 erg in the inner 20 kpc of the Virgo Cluster for an assumed cosmic-ray proton power-law distribution in momentum with spectral index Î±p=2.1.

UR - https://hdl.handle.net/1959.7/uws:74313

M3 - Article

SN - 0004-6361

VL - 675

JO - Astronomy and Astrophysics

JF - Astronomy and Astrophysics

M1 - A138

ER -

Constraining the cosmic-ray pressure in the inner Virgo Cluster using H.E.S.S. observations of M 87

Abstract

Bibliographical note

Open Access - Access Right Statement

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