[en] Massive runaway stars produce bow shocks through the interaction of their winds with the interstellar medium, with the prospect for particle acceleration by the shocks. These objects are consequently candidates for non-thermal emission. Our aim is to investigate the X-ray emission from these sources. We observed with XMM-Newton a sample of 5 bow shock runaways, which constitutes a significant improvement of the sample of bow shock runaways studied in X-rays so far. A careful analysis of the data did not reveal any X-ray emission related to the bow shocks. However, X-ray emission from the stars is detected, in agreement with the expected thermal emission from stellar winds. On the basis of background measurements we derive conservative upper limits between 0.3 and 10 keV on the bow shocks emission. Using a simple radiation model, these limits together with radio upper limits allow us to constrain some of the main physical quantities involved in the non-thermal emission processes, such as the magnetic field strength and the amount of incident infrared photons. The reasons likely responsible for the non-detection of non-thermal radiation are discussed. Finally, using energy budget arguments, we investigate the detectability of inverse Compton X-rays in a more extended sample of catalogued runaway star bow shocks. From our analysis we conclude that a clear identification of non-thermal X-rays from massive runaway bow shocks requires one order of magnitude (or higher) sensitivity improvement with respect to present observatories.
Research Center/Unit :
STAR - Space sciences, Technologies and Astrophysics Research - ULiège
Disciplines :
Space science, astronomy & astrophysics
Author, co-author :
De Becker, Michaël ; Université de Liège > Département d'astrophys., géophysique et océanographie (AGO) > Astroph. extragalactique et observations spatiales (AEOS)
scite shows how a scientific paper has been cited by providing the context of the citation, a classification describing whether it supports, mentions, or contrasts the cited claim, and a label indicating in which section the citation was made.
Bibliography
Abdo A. A. et al., 2013, ApJS, 208, 17
Arnaud K. A., 1996, in Jacoby G. H., Barnes J., eds, ASP Conf. Ser. Vol. 101, Astronomical Data Analysis Software and Systems V. Astron. Soc. Pac., San Francisco, p. 17
Barcons X., Nandra K., Barret D., den Herder J.-W., Fabian A. C., Piro L., Watson M. G., the Athena Team, 2015, J. Phys. Conf. Ser., 610, 012008
Bedding T. R., 1993, AJ, 106, 768
Bell A. R., 1978, MNRAS, 182, 147
Benaglia P., Romero G. E., Martí J., Peri C. S., Araudo A. T., 2010, A&A, 517, L10
Berghoefer T. W., Schmitt J. H. M. M., Danner R., Cassinelli J. P., 1997, A&A, 322, 167
Blumenthal G. R., Gould R. J., 1970, Rev. Modern Phys., 42, 237
Bohlin R. C., Savage B. D., Drake J. F., 1978, ApJ, 224, 132
Churazov E., Gilfanov M., Forman W., Jones C., 1996, ApJ, 471, 673
Condon J. J., CottonW. D., Greisen E.W., Yin Q. F., Perley R. A., Broderick J. J., 1994, in Crabtree D. R., Hanisch R. J., Barnes J., eds, ASP Conf. Ser. Vol. 61, Astronomical Data Analysis Software and Systems III. Astron. Soc. Pac., San Francisco, p. 155
De Becker M., 2007, A&AR, 14, 171
De Becker M., 2013, New Astron., 25, 7
De Becker M., 2015, MNRAS, 451, 1070
De Becker M., Raucq F., 2013, A&A, 558, A28
de Boer P., KroeseD. P., Mannor S., Rubinstein R.Y., 2005, Ann. Operations Res., 134, 19
del Valle M. V., Romero G. E., 2012, A&A, 543, A56
del Valle M. V., Romero G. E., De Becker M., 2013, A&A, 550, A112
del Valle M. V., Lazarian A., Santos-Lima R., 2016, MNRAS, 458, 1645
Dorman B., Arnaud K. A., 2001, in Harnden F. R. Jr, Primini F. A., Payne H. E., eds, ASP Conf. Ser. Vol. 238, Astronomical Data Analysis Software and Systems X. Astron. Soc. Pac., San Francisco, p. 415
Drury L. O'C., 1983, Rep. Progress Phys., 46, 973
Feldmeier A., Puls J., Pauldrach A. W. A., 1997, A&A, 322, 878
Fermi E., 1949, Phys. Rev., 75, 1169
H.E.S.S. Collaboration et al., 2017, A&A, in press
Hohle M. M., Neuhäuser R., Schutz B. F., 2010, Astron. Nachr., 331, 349
Le Bouquin J.-B. et al., 2017, A&A, 601, A34
Leonard P. J. T., Duncan M. J., 1990, AJ, 99, 608
Leutenegger M. A., Cohen D. H., Zsargó J., Martell E. M., MacArthur J. P., Owocki S. P., Gagné M., Hillier D. J., 2010, ApJ, 719, 1767
Longair M. S., 2011, High Energy Astrophysics. Cambridge Univ. Press, Cambridge
López-Santiago J. et al., 2012, ApJ, 757, L6
Luhman K. L., Mamajek E. E., 2012, ApJ, 758, 31
Lumb D. H., Warwick R. S., Page M., De Luca A., 2002, A&A, 389, 93
Martins F., Schaerer D., Hillier D. J., 2005, A&A, 436, 1049
Meilland A. et al., 2011, A&A, 532, A80
Mihalas D., Binney J., 1981, Galactic Astronomy: Structure andKinematics, 2nd edn. Freeman & Co., San Francisco
Owocki S. P., Sundqvist J. O., Cohen D. H., Gayley K. G., 2013, MNRAS, 429, 3379
Peri C. S., Benaglia P., Brookes D. P., Stevens I. R., Isequilla N. L., 2012, A&A, 538, A108
Peri C. S., Benaglia P., Isequilla N. L., 2015, A&A, 578, A45
Pittard J. M., Dougherty S. M., 2006, MNRAS, 372, 801
Romero G. E., 2004, in Cheng K. S., Romero G. E., eds, Astrophysics and Space Science Library, Vol. 304, Cosmic Gamma-Ray Sources. Kluwer, Dordrecht, p. 127
Rosen S. R. et al., 2016, A&A, 590, A1
Schulz A., Ackermann M., Buehler R., Mayer M., Klepser S., 2014, A&A, 565, A95
Skrutskie M. F. et al., 2006, AJ, 131, 1163
Tango W. J., Davis J., Jacob A. P., Mendez A., North J. R., O'Byrne J. W., Seneta E. B., Tuthill P. G., 2009, MNRAS, 396, 842
Toalá J. A., Oskinova L. M., González-Galán A., Guerrero M. A., Ignace R., Pohl M., 2016, ApJ, 821, 79
Toalá J. A., Oskinova L. M., Ignace R., 2017, ApJ, 838, L19
van Buren D., McCray R., 1988, ApJ, 329, L93
Vink J., 2013, in Lamers H., Pugliese V., eds, ASP Conf. Ser. Vol. 470, 370
Years of Astronomy in Utrecht. Astron. Soc. Pac., San Francisco, p. 269
Zwicky F., 1957, Morphological Astronomy. Springer-Verlag, Berlin
Similar publications
Sorry the service is unavailable at the moment. Please try again later.
This website uses cookies to improve user experience. Read more
Save & Close
Accept all
Decline all
Show detailsHide details
Cookie declaration
About cookies
Strictly necessary
Performance
Strictly necessary cookies allow core website functionality such as user login and account management. The website cannot be used properly without strictly necessary cookies.
This cookie is used by Cookie-Script.com service to remember visitor cookie consent preferences. It is necessary for Cookie-Script.com cookie banner to work properly.
Performance cookies are used to see how visitors use the website, eg. analytics cookies. Those cookies cannot be used to directly identify a certain visitor.
Used to store the attribution information, the referrer initially used to visit the website
Cookies are small text files that are placed on your computer by websites that you visit. Websites use cookies to help users navigate efficiently and perform certain functions. Cookies that are required for the website to operate properly are allowed to be set without your permission. All other cookies need to be approved before they can be set in the browser.
You can change your consent to cookie usage at any time on our Privacy Policy page.
