Detection of very-high-energy γ -ray emission from the colliding wind binary η Car with H.E.S.S.

H. Abdalla; R. Adam; F. Aharonian; F. Ait Benkhali; E. O. Angüner; M. Arakawa; C. Arcaro; C. Armand; T. Armstrong; H. Ashkar; M. Backes; V. Barbosa Martins; M. Barnard; Y. Becherini; D. Berge; K. Bernlöhr; R. Blackwell; M. Böttcher; C. Boisson; J. Bolmont; S. Bonnefoy; J. Bregeon; M. Breuhaus; F. Brun; P. Brun; M. Bryan; M. Büchele; T. Bulik; T. Bylund; S. Caroff; A. Carosi; S. Casanova; M. Cerruti; T. Chand; S. Chandra; A. Chen; S. Colafrancesco; G. Cotter; M. Curyło; I. D. Davids; J. Davies; C. Deil; J. Devin; P. Dewilt; L. Dirson; A. Djannati-Ataï; A. Dmytriiev; A. Donath; V. Doroshenko; J. Dyks; K. Egberts; F. Eichhorn; G. Emery; J. P. Ernenwein; S. Eschbach; K. Feijen; S. Fegan; A. Fiasson; G. Fontaine; S. Funk; M. Füßling; S. Gabici; Y. A. Gallant; F. Gaté; G. Giavitto; L. Giunti; D. Glawion; J. F. Glicenstein; D. Gottschall; M. H. Grondin; J. Hahn; M. Haupt; G. Heinzelmann; G. Henri; G. Hermann; J. A. Hinton; W. Hofmann; C. Hoischen; T. L. Holch; M. Holler; M. Hörbe; D. Horns; D. Huber; H. Iwasaki; M. Jamrozy; D. Jankowsky; F. Jankowsky; A. Jardin-Blicq; V. Joshi; I. Jung-Richardt; M. A. Kastendieck; K. Katarzyński; M. Katsuragawa; U. Katz; D. Khangulyan; B. Khélifi; J. King; S. Klepser; W. Kluź Niak; Nu Komin; K. Kosack; D. Kostunin; M. Kreter; G. Lamanna; A. Lemière; M. Lemoine-Goumard; J. P. Lenain; E. Leser; C. Levy; T. Lohse; I. Lypova; J. Mackey; J. Majumdar; D. Malyshev; D. Malyshev; V. Marandon; P. Marchegiani; A. Marcowith; A. Mares; G. Martí-Devesa; R. Marx; G. Maurin; P. J. Meintjes; R. Moderski; M. Mohamed; L. Mohrmann; C. Moore; P. Morris; E. Moulin; J. Muller; T. Murach; S. Nakashima; K. Nakashima; M. De Naurois; H. Ndiyavala; F. Niederwanger; J. Niemiec; L. Oakes; P. O'Brien; H. Odaka; S. Ohm; E. De Ona Wilhelmi; M. Ostrowski; M. Panter; R. D. Parsons; C. Perennes; P. O. Petrucci; B. Peyaud; Q. Piel; S. Pita; V. Poireau; A. Priyana Noel; D. A. Prokhorov; H. Prokoph; G. Pühlhofer; M. Punch; A. Quirrenbach; S. Raab; R. Rauth; A. Reimer; O. Reimer; Q. Remy; M. Renaud; F. Rieger; L. Rinchiuso; C. Romoli; G. Rowell; B. Rudak; E. Ruiz-Velasco; V. Sahakian; S. Sailer; S. Saito; D. A. Sanchez; A. Santangelo; M. Sasaki; M. Scalici; R. Schlickeiser; F. Schüssler; A. Schulz; H. M. Schutte; U. Schwanke; S. Schwemmer; M. Seglar-Arroyo; M. Senniappan; A. S. Seyffert; N. Shafi; K. Shiningayamwe; R. Simoni; A. Sinha; H. Sol; A. Specovius; S. Spencer; M. Spir-Jacob; L. Stawarz; R. Steenkamp; C. Stegmann; C. Steppa; T. Takahashi; T. Tavernier; A. M. Taylor; R. Terrier; D. Tiziani; M. Tluczykont; L. Tomankova; C. Trichard; M. Tsirou; N. Tsuji; R. Tuffs; Y. Uchiyama; D. J. Van Der Walt; C. Van Eldik; C. Van Rensburg; B. Van Soelen; G. Vasileiadis; J. Veh; C. Venter; P. Vincent; J. Vink; H. J. Völk; T. Vuillaume; Z. Wadiasingh; S. J. Wagner; J. Watson; F. Werner; R. White; A. Wierzcholska; R. Yang; H. Yoneda; M. Zacharias; R. Zanin; A. A. Zdziarski; A. Zech; J. Zorn; N. Zywucka

doi:10.1051/0004-6361/201936761

Detection of very-high-energy γ -ray emission from the colliding wind binary η Car with H.E.S.S.

H. Abdalla
, R. Adam
, F. Aharonian
, F. Ait Benkhali
, E. O. Angüner
, M. Arakawa
, C. Arcaro
, C. Armand
, T. Armstrong
, H. Ashkar
, M. Backes
, V. Barbosa Martins
, M. Barnard
, Y. Becherini
, D. Berge
, K. Bernlöhr
, R. Blackwell
, M. Böttcher
, C. Boisson
, J. Bolmont

S. Bonnefoy, J. Bregeon, M. Breuhaus, F. Brun, P. Brun, M. Bryan, M. Büchele, T. Bulik, T. Bylund, S. Caroff, A. Carosi, S. Casanova, M. Cerruti, T. Chand, S. Chandra, A. Chen, S. Colafrancesco, G. Cotter, M. Curyło, I. D. Davids, J. Davies, C. Deil, J. Devin, P. Dewilt, L. Dirson, A. Djannati-Ataï, A. Dmytriiev, A. Donath, V. Doroshenko, J. Dyks, K. Egberts, F. Eichhorn, G. Emery, J. P. Ernenwein, S. Eschbach, K. Feijen, S. Fegan, A. Fiasson, G. Fontaine, S. Funk, M. Füßling, S. Gabici, Y. A. Gallant, F. Gaté, G. Giavitto, L. Giunti, D. Glawion, J. F. Glicenstein, D. Gottschall, M. H. Grondin, J. Hahn, M. Haupt, G. Heinzelmann, G. Henri, G. Hermann, J. A. Hinton, W. Hofmann, C. Hoischen, T. L. Holch, M. Holler, M. Hörbe, D. Horns, D. Huber, H. Iwasaki, M. Jamrozy, D. Jankowsky, F. Jankowsky, A. Jardin-Blicq, V. Joshi, I. Jung-Richardt, M. A. Kastendieck, K. Katarzyński, M. Katsuragawa, U. Katz, D. Khangulyan, B. Khélifi, J. King, S. Klepser, W. Kluź Niak, Nu Komin, K. Kosack, D. Kostunin, M. Kreter, G. Lamanna, A. Lemière, M. Lemoine-Goumard, J. P. Lenain, E. Leser, C. Levy, T. Lohse, I. Lypova, J. Mackey, J. Majumdar, D. Malyshev, D. Malyshev, V. Marandon, P. Marchegiani, A. Marcowith, A. Mares, G. Martí-Devesa, R. Marx, G. Maurin, P. J. Meintjes, R. Moderski, M. Mohamed, L. Mohrmann, C. Moore, P. Morris, E. Moulin, J. Muller, T. Murach, S. Nakashima, K. Nakashima, M. De Naurois, H. Ndiyavala, F. Niederwanger, J. Niemiec, L. Oakes, P. O'Brien, H. Odaka, S. Ohm, E. De Ona Wilhelmi, M. Ostrowski, M. Panter, R. D. Parsons, C. Perennes, P. O. Petrucci, B. Peyaud, Q. Piel, S. Pita, V. Poireau, A. Priyana Noel, D. A. Prokhorov, H. Prokoph, G. Pühlhofer, M. Punch, A. Quirrenbach, S. Raab, R. Rauth, A. Reimer, O. Reimer, Q. Remy, M. Renaud, F. Rieger, L. Rinchiuso, C. Romoli, G. Rowell, B. Rudak, E. Ruiz-Velasco, V. Sahakian, S. Sailer, S. Saito, D. A. Sanchez, A. Santangelo, M. Sasaki, M. Scalici, R. Schlickeiser, F. Schüssler, A. Schulz, H. M. Schutte, U. Schwanke, S. Schwemmer, M. Seglar-Arroyo, M. Senniappan, A. S. Seyffert, N. Shafi, K. Shiningayamwe, R. Simoni, A. Sinha, H. Sol, A. Specovius, S. Spencer, M. Spir-Jacob, L. Stawarz, R. Steenkamp, C. Stegmann, C. Steppa, T. Takahashi, T. Tavernier, A. M. Taylor, R. Terrier, D. Tiziani, M. Tluczykont, L. Tomankova, C. Trichard, M. Tsirou, N. Tsuji, R. Tuffs, Y. Uchiyama, D. J. Van Der Walt, C. Van Eldik, C. Van Rensburg, B. Van Soelen, G. Vasileiadis, J. Veh, C. Venter, P. Vincent, J. Vink, H. J. Völk, T. Vuillaume, Z. Wadiasingh, S. J. Wagner, J. Watson, F. Werner, R. White, A. Wierzcholska, R. Yang, H. Yoneda, M. Zacharias, R. Zanin, A. A. Zdziarski, A. Zech, J. Zorn, N. Zywucka

North West University
Laboratoire Leprince-Ringuet
Max Planck Institute for Nuclear Physics
Dublin Institute for Advanced Studies
Russian-Armenian University
Aix-Marseille Université
Rikkyo University
Université Grenoble Alpes
University of Oxford
Université Paris-Saclay
University of Namibia
German Electron Synchrotron
Linnaeus University
University of Adelaide
PSL University
Sorbonne Université
Université Montpellier 2
University of Amsterdam
Friedrich-Alexander University Erlangen-Nürnberg
University of Warsaw
Cracow
University of Barcelona
University of the Witwatersrand
Université de Bordeaux
University of Hamburg
Université de Paris
University of Tübingen
Nicolaus Copernicus Astronomical Center of the Polish Academy of Sciences
University of Potsdam
Heidelberg University
Humboldt University of Berlin
Innsbruck Medical University
Jagiellonian University in Kraków
Nicolaus Copernicus University in Toruń
The University of Tokyo
University of The Free State
University of Leicester
RIKEN
A. Alikhanian Yerevan Institute of Physics
Ruhr University Bochum

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

22 Citations (Scopus)

Abstract

Aims. Colliding wind binary systems have long been suspected to be high-energy (HE; 100 MeV < E < 100 GeV) γ-ray emitters. η Car is the most prominent member of this object class and is confirmed to emit phase-locked HE γ rays from hundreds of MeV to ~100 GeV energies. This work aims to search for and characterise the very-high-energy (VHE; E >100 GeV) γ-ray emission from η Car around the last periastron passage in 2014 with the ground-based High Energy Stereoscopic System (H.E.S.S.). Methods. The region around η Car was observed with H.E.S.S. between orbital phase p = 0.78-1.10, with a closer sampling at p ≈ 0.95 and p ≈ 1.10 (assuming a period of 2023 days). Optimised hardware settings as well as adjustments to the data reduction, reconstruction, and signal selection were needed to suppress and take into account the strong, extended, and inhomogeneous night sky background (NSB) in the η Car field of view. Tailored run-wise Monte-Carlo simulations (RWS) were required to accurately treat the additional noise from NSB photons in the instrument response functions. Results. H.E.S.S. detected VHE γ-ray emission from the direction of η Car shortly before and after the minimum in the X-ray light-curve close to periastron. Using the point spread function provided by RWS, the reconstructed signal is point-like and the spectrum is best described by a power law. The overall flux and spectral index in VHE γ rays agree within statistical and systematic errors before and after periastron. The γ-ray spectrum extends up to at least ~400 GeV. This implies a maximum magnetic field in a leptonic scenario in the emission region of 0.5 Gauss. No indication for phase-locked flux variations is detected in the H.E.S.S. data.

Original language	English
Article number	A167
Journal	Astronomy and Astrophysics
Volume	635
DOIs	https://doi.org/10.1051/0004-6361/201936761
Publication status	Published - 1 Mar 2020
Externally published	Yes

Keywords

Astroparticle physics
Binaries: general
Cosmic rays
Radiation mechanisms: non-thermal
Stars: Wolf-Rayet
Stars: individual: η Car

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

Access to Document

10.1051/0004-6361/201936761

Cite this

Abdalla, H., Adam, R., Aharonian, F., Ait Benkhali, F., Angüner, E. O., Arakawa, M., Arcaro, C., Armand, C., Armstrong, T., Ashkar, H., Backes, M., Barbosa Martins, V., Barnard, M., Becherini, Y., Berge, D., Bernlöhr, K., Blackwell, R., Böttcher, M., Boisson, C., ... Zywucka, N. (2020). Detection of very-high-energy γ -ray emission from the colliding wind binary η Car with H.E.S.S. Astronomy and Astrophysics, 635, Article A167. https://doi.org/10.1051/0004-6361/201936761

@article{a887d3fa79fd4d3396e26eb489492c2f,

title = "Detection of very-high-energy γ -ray emission from the colliding wind binary η Car with H.E.S.S.",

abstract = "Aims. Colliding wind binary systems have long been suspected to be high-energy (HE; 100 MeV < E < 100 GeV) γ-ray emitters. η Car is the most prominent member of this object class and is confirmed to emit phase-locked HE γ rays from hundreds of MeV to \textasciitilde{}100 GeV energies. This work aims to search for and characterise the very-high-energy (VHE; E >100 GeV) γ-ray emission from η Car around the last periastron passage in 2014 with the ground-based High Energy Stereoscopic System (H.E.S.S.). Methods. The region around η Car was observed with H.E.S.S. between orbital phase p = 0.78-1.10, with a closer sampling at p ≈ 0.95 and p ≈ 1.10 (assuming a period of 2023 days). Optimised hardware settings as well as adjustments to the data reduction, reconstruction, and signal selection were needed to suppress and take into account the strong, extended, and inhomogeneous night sky background (NSB) in the η Car field of view. Tailored run-wise Monte-Carlo simulations (RWS) were required to accurately treat the additional noise from NSB photons in the instrument response functions. Results. H.E.S.S. detected VHE γ-ray emission from the direction of η Car shortly before and after the minimum in the X-ray light-curve close to periastron. Using the point spread function provided by RWS, the reconstructed signal is point-like and the spectrum is best described by a power law. The overall flux and spectral index in VHE γ rays agree within statistical and systematic errors before and after periastron. The γ-ray spectrum extends up to at least \textasciitilde{}400 GeV. This implies a maximum magnetic field in a leptonic scenario in the emission region of 0.5 Gauss. No indication for phase-locked flux variations is detected in the H.E.S.S. data.",

keywords = "Astroparticle physics, Binaries: general, Cosmic rays, Radiation mechanisms: non-thermal, Stars: Wolf-Rayet, Stars: individual: η Car",

author = "H. Abdalla and R. Adam and F. Aharonian and \{Ait Benkhali\}, F. and Ang{\"u}ner, \{E. O.\} and M. Arakawa and C. Arcaro and C. Armand and T. Armstrong and H. Ashkar and M. Backes and \{Barbosa Martins\}, V. and M. Barnard and Y. Becherini and D. Berge and K. Bernl{\"o}hr and R. Blackwell and M. B{\"o}ttcher and C. Boisson and J. Bolmont and S. Bonnefoy and J. Bregeon and M. Breuhaus and F. Brun and P. Brun and M. Bryan and M. B{\"u}chele and T. Bulik and T. Bylund and S. Caroff and A. Carosi and S. Casanova and M. Cerruti and T. Chand and S. Chandra and A. Chen and S. Colafrancesco and G. Cotter and M. Cury{\l}o and Davids, \{I. D.\} and J. Davies and C. Deil and J. Devin and P. Dewilt and L. Dirson and A. Djannati-Ata{\"i} and A. Dmytriiev and A. Donath and V. Doroshenko and J. Dyks and K. Egberts and F. Eichhorn and G. Emery and Ernenwein, \{J. P.\} and S. Eschbach and K. Feijen and S. Fegan and A. Fiasson and G. Fontaine and S. Funk and M. F{\"u}{\ss}ling and S. Gabici and Gallant, \{Y. A.\} and F. Gat{\'e} and G. Giavitto and L. Giunti and D. Glawion and Glicenstein, \{J. F.\} and D. Gottschall and Grondin, \{M. H.\} and J. Hahn and M. Haupt and G. Heinzelmann and G. Henri and G. Hermann and Hinton, \{J. A.\} and W. Hofmann and C. Hoischen and Holch, \{T. L.\} and M. Holler and M. H{\"o}rbe and D. Horns and D. Huber and H. Iwasaki and M. Jamrozy and D. Jankowsky and F. Jankowsky and A. Jardin-Blicq and V. Joshi and I. Jung-Richardt and Kastendieck, \{M. A.\} and K. Katarzy{\'n}ski and M. Katsuragawa and U. Katz and D. Khangulyan and B. Kh{\'e}lifi and J. King and S. Klepser and \{Klu{\'z} Niak\}, W. and Nu Komin and K. Kosack and D. Kostunin and M. Kreter and G. Lamanna and A. Lemi{\`e}re and M. Lemoine-Goumard and Lenain, \{J. P.\} and E. Leser and C. Levy and T. Lohse and I. Lypova and J. Mackey and J. Majumdar and D. Malyshev and D. Malyshev and V. Marandon and P. Marchegiani and A. Marcowith and A. Mares and G. Mart{\'i}-Devesa and R. Marx and G. Maurin and Meintjes, \{P. J.\} and R. Moderski and M. Mohamed and L. Mohrmann and C. Moore and P. Morris and E. Moulin and J. Muller and T. Murach and S. Nakashima and K. Nakashima and \{De Naurois\}, M. and H. Ndiyavala and F. Niederwanger and J. Niemiec and L. Oakes and P. O'Brien and H. Odaka and S. Ohm and \{De Ona Wilhelmi\}, E. and M. Ostrowski and M. Panter and Parsons, \{R. D.\} and C. Perennes and Petrucci, \{P. O.\} and B. Peyaud and Q. Piel and S. Pita and V. Poireau and \{Priyana Noel\}, A. and Prokhorov, \{D. A.\} and H. Prokoph and G. P{\"u}hlhofer and M. Punch and A. Quirrenbach and S. Raab and R. Rauth and A. Reimer and O. Reimer and Q. Remy and M. Renaud and F. Rieger and L. Rinchiuso and C. Romoli and G. Rowell and B. Rudak and E. Ruiz-Velasco and V. Sahakian and S. Sailer and S. Saito and Sanchez, \{D. A.\} and A. Santangelo and M. Sasaki and M. Scalici and R. Schlickeiser and F. Sch{\"u}ssler and A. Schulz and Schutte, \{H. M.\} and U. Schwanke and S. Schwemmer and M. Seglar-Arroyo and M. Senniappan and Seyffert, \{A. S.\} and N. Shafi and K. Shiningayamwe and R. Simoni and A. Sinha and H. Sol and A. Specovius and S. Spencer and M. Spir-Jacob and L. Stawarz and R. Steenkamp and C. Stegmann and C. Steppa and T. Takahashi and T. Tavernier and Taylor, \{A. M.\} and R. Terrier and D. Tiziani and M. Tluczykont and L. Tomankova and C. Trichard and M. Tsirou and N. Tsuji and R. Tuffs and Y. Uchiyama and \{Van Der Walt\}, \{D. J.\} and \{Van Eldik\}, C. and \{Van Rensburg\}, C. and \{Van Soelen\}, B. and G. Vasileiadis and J. Veh and C. Venter and P. Vincent and J. Vink and V{\"o}lk, \{H. J.\} and T. Vuillaume and Z. Wadiasingh and Wagner, \{S. J.\} and J. Watson and F. Werner and R. White and A. Wierzcholska and R. Yang and H. Yoneda and M. Zacharias and R. Zanin and Zdziarski, \{A. A.\} and A. Zech and J. Zorn and N. Zywucka",

note = "Publisher Copyright: {\textcopyright} ESO 2020.",

year = "2020",

month = mar,

day = "1",

doi = "10.1051/0004-6361/201936761",

language = "English",

volume = "635",

journal = "Astronomy and Astrophysics",

issn = "0004-6361",

publisher = "EDP Sciences",

}

Abdalla, H, Adam, R, Aharonian, F, Ait Benkhali, F, Angüner, EO, Arakawa, M, Arcaro, C, Armand, C, Armstrong, T, Ashkar, H, Backes, M, Barbosa Martins, V, Barnard, M, Becherini, Y, Berge, D, Bernlöhr, K, Blackwell, R, Böttcher, M, Boisson, C, Bolmont, J, Bonnefoy, S, Bregeon, J, Breuhaus, M, Brun, F, Brun, P, Bryan, M, Büchele, M, Bulik, T, Bylund, T, Caroff, S, Carosi, A, Casanova, S, Cerruti, M, Chand, T, Chandra, S, Chen, A, Colafrancesco, S, Cotter, G, Curyło, M, Davids, ID, Davies, J, Deil, C, Devin, J, Dewilt, P, Dirson, L, Djannati-Ataï, A, Dmytriiev, A, Donath, A, Doroshenko, V, Dyks, J, Egberts, K, Eichhorn, F, Emery, G, Ernenwein, JP, Eschbach, S, Feijen, K, Fegan, S, Fiasson, A, Fontaine, G, Funk, S, Füßling, M, Gabici, S, Gallant, YA, Gaté, F, Giavitto, G, Giunti, L, Glawion, D, Glicenstein, JF, Gottschall, D, Grondin, MH, Hahn, J, Haupt, M, Heinzelmann, G, Henri, G, Hermann, G, Hinton, JA, Hofmann, W, Hoischen, C, Holch, TL, Holler, M, Hörbe, M, Horns, D, Huber, D, Iwasaki, H, Jamrozy, M, Jankowsky, D, Jankowsky, F, Jardin-Blicq, A, Joshi, V, Jung-Richardt, I, Kastendieck, MA, Katarzyński, K, Katsuragawa, M, Katz, U, Khangulyan, D, Khélifi, B, King, J, Klepser, S, Kluź Niak, W, Komin, N, Kosack, K, Kostunin, D, Kreter, M, Lamanna, G, Lemière, A, Lemoine-Goumard, M, Lenain, JP, Leser, E, Levy, C, Lohse, T, Lypova, I, Mackey, J, Majumdar, J, Malyshev, D, Malyshev, D, Marandon, V, Marchegiani, P, Marcowith, A, Mares, A, Martí-Devesa, G, Marx, R, Maurin, G, Meintjes, PJ, Moderski, R, Mohamed, M, Mohrmann, L, Moore, C, Morris, P, Moulin, E, Muller, J, Murach, T, Nakashima, S, Nakashima, K, De Naurois, M, Ndiyavala, H, Niederwanger, F, Niemiec, J, Oakes, L, O'Brien, P, Odaka, H, Ohm, S, De Ona Wilhelmi, E, Ostrowski, M, Panter, M, Parsons, RD, Perennes, C, Petrucci, PO, Peyaud, B, Piel, Q, Pita, S, Poireau, V, Priyana Noel, A, Prokhorov, DA, Prokoph, H, Pühlhofer, G, Punch, M, Quirrenbach, A, Raab, S, Rauth, R, Reimer, A, Reimer, O, Remy, Q, Renaud, M, Rieger, F, Rinchiuso, L, Romoli, C, Rowell, G, Rudak, B, Ruiz-Velasco, E, Sahakian, V, Sailer, S, Saito, S, Sanchez, DA, Santangelo, A, Sasaki, M, Scalici, M, Schlickeiser, R, Schüssler, F, Schulz, A, Schutte, HM, Schwanke, U, Schwemmer, S, Seglar-Arroyo, M, Senniappan, M, Seyffert, AS, Shafi, N, Shiningayamwe, K, Simoni, R, Sinha, A, Sol, H, Specovius, A, Spencer, S, Spir-Jacob, M, Stawarz, L, Steenkamp, R, Stegmann, C, Steppa, C, Takahashi, T, Tavernier, T, Taylor, AM, Terrier, R, Tiziani, D, Tluczykont, M, Tomankova, L, Trichard, C, Tsirou, M, Tsuji, N, Tuffs, R, Uchiyama, Y, Van Der Walt, DJ, Van Eldik, C, Van Rensburg, C, Van Soelen, B, Vasileiadis, G, Veh, J, Venter, C, Vincent, P, Vink, J, Völk, HJ, Vuillaume, T, Wadiasingh, Z, Wagner, SJ, Watson, J, Werner, F, White, R, Wierzcholska, A, Yang, R, Yoneda, H, Zacharias, M, Zanin, R, Zdziarski, AA, Zech, A, Zorn, J & Zywucka, N 2020, 'Detection of very-high-energy γ -ray emission from the colliding wind binary η Car with H.E.S.S.', Astronomy and Astrophysics, vol. 635, A167. https://doi.org/10.1051/0004-6361/201936761

TY - JOUR

T1 - Detection of very-high-energy γ -ray emission from the colliding wind binary η Car with H.E.S.S.

AU - Abdalla, H.

AU - Adam, R.

AU - Aharonian, F.

AU - Ait Benkhali, F.

AU - Angüner, E. O.

AU - Arakawa, M.

AU - Arcaro, C.

AU - Armand, C.

AU - Armstrong, T.

AU - Ashkar, H.

AU - Backes, M.

AU - Barbosa Martins, V.

AU - Barnard, M.

AU - Becherini, Y.

AU - Berge, D.

AU - Bernlöhr, K.

AU - Blackwell, R.

AU - Böttcher, M.

AU - Boisson, C.

AU - Bolmont, J.

AU - Bonnefoy, S.

AU - Bregeon, J.

AU - Breuhaus, M.

AU - Brun, F.

AU - Brun, P.

AU - Bryan, M.

AU - Büchele, M.

AU - Bulik, T.

AU - Bylund, T.

AU - Caroff, S.

AU - Carosi, A.

AU - Casanova, S.

AU - Cerruti, M.

AU - Chand, T.

AU - Chandra, S.

AU - Chen, A.

AU - Colafrancesco, S.

AU - Cotter, G.

AU - Curyło, M.

AU - Davids, I. D.

AU - Davies, J.

AU - Deil, C.

AU - Devin, J.

AU - Dewilt, P.

AU - Dirson, L.

AU - Djannati-Ataï, A.

AU - Dmytriiev, A.

AU - Donath, A.

AU - Doroshenko, V.

AU - Dyks, J.

AU - Egberts, K.

AU - Eichhorn, F.

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PY - 2020/3/1

Y1 - 2020/3/1

N2 - Aims. Colliding wind binary systems have long been suspected to be high-energy (HE; 100 MeV < E < 100 GeV) γ-ray emitters. η Car is the most prominent member of this object class and is confirmed to emit phase-locked HE γ rays from hundreds of MeV to ~100 GeV energies. This work aims to search for and characterise the very-high-energy (VHE; E >100 GeV) γ-ray emission from η Car around the last periastron passage in 2014 with the ground-based High Energy Stereoscopic System (H.E.S.S.). Methods. The region around η Car was observed with H.E.S.S. between orbital phase p = 0.78-1.10, with a closer sampling at p ≈ 0.95 and p ≈ 1.10 (assuming a period of 2023 days). Optimised hardware settings as well as adjustments to the data reduction, reconstruction, and signal selection were needed to suppress and take into account the strong, extended, and inhomogeneous night sky background (NSB) in the η Car field of view. Tailored run-wise Monte-Carlo simulations (RWS) were required to accurately treat the additional noise from NSB photons in the instrument response functions. Results. H.E.S.S. detected VHE γ-ray emission from the direction of η Car shortly before and after the minimum in the X-ray light-curve close to periastron. Using the point spread function provided by RWS, the reconstructed signal is point-like and the spectrum is best described by a power law. The overall flux and spectral index in VHE γ rays agree within statistical and systematic errors before and after periastron. The γ-ray spectrum extends up to at least ~400 GeV. This implies a maximum magnetic field in a leptonic scenario in the emission region of 0.5 Gauss. No indication for phase-locked flux variations is detected in the H.E.S.S. data.

AB - Aims. Colliding wind binary systems have long been suspected to be high-energy (HE; 100 MeV < E < 100 GeV) γ-ray emitters. η Car is the most prominent member of this object class and is confirmed to emit phase-locked HE γ rays from hundreds of MeV to ~100 GeV energies. This work aims to search for and characterise the very-high-energy (VHE; E >100 GeV) γ-ray emission from η Car around the last periastron passage in 2014 with the ground-based High Energy Stereoscopic System (H.E.S.S.). Methods. The region around η Car was observed with H.E.S.S. between orbital phase p = 0.78-1.10, with a closer sampling at p ≈ 0.95 and p ≈ 1.10 (assuming a period of 2023 days). Optimised hardware settings as well as adjustments to the data reduction, reconstruction, and signal selection were needed to suppress and take into account the strong, extended, and inhomogeneous night sky background (NSB) in the η Car field of view. Tailored run-wise Monte-Carlo simulations (RWS) were required to accurately treat the additional noise from NSB photons in the instrument response functions. Results. H.E.S.S. detected VHE γ-ray emission from the direction of η Car shortly before and after the minimum in the X-ray light-curve close to periastron. Using the point spread function provided by RWS, the reconstructed signal is point-like and the spectrum is best described by a power law. The overall flux and spectral index in VHE γ rays agree within statistical and systematic errors before and after periastron. The γ-ray spectrum extends up to at least ~400 GeV. This implies a maximum magnetic field in a leptonic scenario in the emission region of 0.5 Gauss. No indication for phase-locked flux variations is detected in the H.E.S.S. data.

KW - Astroparticle physics

KW - Binaries: general

KW - Cosmic rays

KW - Radiation mechanisms: non-thermal

KW - Stars: Wolf-Rayet

KW - Stars: individual: η Car

UR - https://www.scopus.com/pages/publications/85082885450

U2 - 10.1051/0004-6361/201936761

DO - 10.1051/0004-6361/201936761

M3 - Article

AN - SCOPUS:85082885450

SN - 0004-6361

VL - 635

JO - Astronomy and Astrophysics

JF - Astronomy and Astrophysics

M1 - A167

ER -

Detection of very-high-energy γ -ray emission from the colliding wind binary η Car with H.E.S.S.

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