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Nonthermal X-rays from supernova remnants

Published online by Cambridge University Press:  29 January 2014

Anne Decourchelle
Anne Decourchelle*
Affiliation:
Laboratoire AIM, CEA-IRFU/CNRS/Univ. Paris Diderot, Service d'Astrophysique, L'Orme des Merisiers, CEA Saclay F-91191 Gif sur Yvette, France email: [email protected]
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Abstract

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Since the discovery of nonthermal X-rays in the shell-type supernova remnant SN1006 almost 20 years ago, the field has developed considerably, owing significant progress to our understanding of particle acceleration. Key to the characterization of the nonthermal emission is the ability of current satellites, XMM-Newton and Chandra, to perform spatially resolved spectroscopy at a relatively small spatial scale.

In this review, I intend to present the main contributions of the study of nonthermal X-rays from supernova remnants to the understanding of particle acceleration.

Keywords

Supernova remnantParticle accelerationX-raysSynchrotron emission
Type
Contributed Papers
Information
Proceedings of the International Astronomical Union , Volume 9 , Symposium S296: Supernova Environmental Impacts , January 2013 , pp. 245 - 252
Copyright
Copyright © International Astronomical Union 2014 

References

Acero, F., Ballet, J., Decourchelle, A., Lemoine-Goumard, M., Ortega, M.et al. 2009, A&A, 505, 157Google Scholar
Aharonian, F., Akhperjanian, A. G., Aye, K.-M., Bazer-Bachi, A. R., Beilicke, M.et al. 2004, Nature, 432, 75CrossRefGoogle Scholar
Aharonian, F. A., Akhperjanian, A. G., Bazer-Bachi, A. R., Beilicke, M., Benbow, W., Berge, D., Bernlhr, K., Boisson, C., Bolz, O., Borrel, V.et al. 2006, A&A, 449, 223Google Scholar
Allen, G. E., Houck, J. C., & Sturner, S. J. 2008, ApJ, 683, 773Google Scholar
Ballet, J. 2006, AdSR, 37, 1902Google Scholar
Bamba, A., Koyama, K., & Tomida, H. 2000, PASJ, 52, 1157Google Scholar
Bamba, A., Yamazaki, R., Ueno, M., & Koyama, K. 2003, ApJ, 589, 827Google Scholar
Bamba, A., Yamazaki, R., Yoshida, T., Terasawa, T., & Koyama, K. 2005, ApJ, 621, 793CrossRefGoogle Scholar
Bell, A. R. 2004, MNRAS, 353, 550Google Scholar
Bell, A. R. & Lucek, S. G. 2001, MNRAS, 321, 433Google Scholar
Berezhko, E. G., Ksenofontov, L. T., & Völk, H. J. 2002, A&A, 395, 943Google Scholar
Berezhko, E. G., Ksenofontov, L. T., & Völk, H. J. 2003, A&A, 412, L11Google Scholar
Berezhko, E. G., Ksenofontov, L. T., & Völk, H. J. 2012, ApJ, 759, 12CrossRefGoogle Scholar
Berezhko, E. G., Pühlhofer, G., & Völk, H. J. 2009, A&A, 505, 641Google Scholar
Blandford, R. & Eichler, D. 1987, Phys.Rep., 154, 1CrossRefGoogle Scholar
Bocchino, F., Orlando, S., Miceli, M., & Petruk, O. 2011, A&A, 531, 129Google Scholar
Bykov, A. M., Uvarov, Y. A., & Ellison, D. C. 2008, ApJ, 689, L133Google Scholar
Carlton, A. K., Borkowski, K., Reynolds, S. P., Hwang, U., Petre, R., Green, D. A., Krishnamurthy, K., & Willett, R. 2011, ApJ, 737, L22Google Scholar
Cassam-Chenai, G., Decourchelle, A., Ballet, J., Hwang, U., Hughes, J. P., & Petre, R. 2004, A&A, 414, 545Google Scholar
Cassam-Chenai, G., Decourchelle, A., Ballet, J., Sauvageot, J.-L., Dubner, G., & Giacani, E., 2004, A&A, 427, 199Google Scholar
Cassam-Chenaï, G., Hughes, J. P., Ballet, J., & Decourchelle, A. 2007, ApJ, 665, 315Google Scholar
Chevalier, R. A. 1983, ApJ, 272, 765Google Scholar
Decourchelle, A. 2005, in: Sjouwerman, L.O. & Dyer, K. K (eds.), X-Ray and Radio Connections (Published electronically by NRAO, http://www.aoc.nrao.edu/events/xraydio), E4.02, 10 pagesGoogle Scholar
Decourchelle, A., Ellison, D. C., & Ballet, J. 2000, ApJ, 543, L57Google Scholar
Ellison, D. C. & Reynolds, S. P. 1991, ApJ 382, 242Google Scholar
Ellison, D. C., Slane, P., Patnaude, D. J., & Bykov, A. M. 2012, ApJ, 744, 39Google Scholar
Fukui, Y., Moriguchi, Y., Tamura, K., Yamamoto, H., Tawara, Y.et al. 2003, PASJ, 55, L61Google Scholar
Giacalone, J. & Jokipii, J. R. 2007, ApJ, 663, L41Google Scholar
Gotthelf, E. V., Koralesky, B., Rudnick, L., Jones, T. W., Hwang, U., & Petre, R. 2001, ApJ, 552, L39Google Scholar
Hanbury Brown, R. 1954, The Observatory, 74, 185Google Scholar
Hughes, J. P., Rakowski, C. E., Burrows, D. N., & Slane, P. O. 2000, ApJ, 528, L109Google Scholar
Hwang, U., Decourchelle, A., & Holt, S. S., Petre, R. 2002, ApJ, 581, 1101Google Scholar
Jones, T. J., Rudnick, L., DeLaney, T., & Bowden, J. 2003, ApJ, 587, 227CrossRefGoogle Scholar
Koyama, K., Kinugasa, K., Matsuzaki, K., Nishiuchi, M., Sugizaki, M.et al. 1997, PASJ, 49, L7CrossRefGoogle Scholar
Koyama, K., Petre, R., Gotthelf, E. V., Hwang, U., Matsuura, M., Ozaki, M., & Holt, S. S. 1995, Nature, 378, 255Google Scholar
Lagage, P. O. & Cesarsky, C. J. 1983, A&A 125, 249Google Scholar
Lemoine-Goumard, M. 2013, this proceedingsGoogle Scholar
Long, K. S., Reynolds, S. P., Raymond, J. C., Winkler, P. F., Dyer, K. K., & Petre, R. 2003, ApJ 586, 1162Google Scholar
Lucek, S. G. & Bell, A. R. 2000, MNRAS, 314, 65CrossRefGoogle Scholar
Miceli, M.; Bocchino, F., Decourchelle, A., Vink, J., Broersen, S., & Orlando, S. 2013, A&A in press, astro-ph ariv:1306.6048Google Scholar
Miceli, M., Bocchino, F., Iakubovskyi, D., Orlando, S., Telezhinsky, I., Kirsch, M. G. F., Petruk, O., Dubner, G., & Castelletti, G. 2009, A&A 501, 239Google Scholar
Moriguchi, Y., Tamura, K., Tawara, Y., Sasago, H., Yamaoka, K.et al. 2005, ApJ, 631, 947Google Scholar
Parizot, E., Marcowith, A., Ballet, J., & Gallant, Y. A. 2006, A&A, 453, 387Google Scholar
Park, S., Kargaltsev, O., Pavlov, G. G., Mori, K., Slane, P. O., Hughes, J. P., Burrows, D. N., & Garmire, G. P. 2009, ApJ, 695, 431CrossRefGoogle Scholar
Patnaude, D. J. & Fesen, R. A. 2009, ApJ, 697, 535Google Scholar
Pfeffermann, E. & Aschenbach, B. 1996, in: Zimmermann, , Trümper, and Yorke, (eds.), Roentgenstrahlung from the Universe, 267Google Scholar
Pohl, M., Yan, H., & Lazarian, A. 2005, ApJ, 626, L101Google Scholar
Rettig, R. & Pohl, M. 2012, A&A, 545, 47Google Scholar
Reynolds, S. P. 1996, ApJ, 459, L13Google Scholar
Reynolds, S. P. 1998, ApJ, 493, 375Google Scholar
Reynolds, S. P., Borkowski, K. J., Green, D. A., Hwang, U., Harrus, I., & Petre, R. 2008, ApJ, 680, L41Google Scholar
Reynolds, S. P., Borkowski, K. J., Green, D. A., Hwang, U., Harrus, I., & Petre, R. 2009, ApJ, 695, L149CrossRefGoogle Scholar
Reynolds, S. P. & Ellison, D. C. 1992, ApJ 399, L75Google Scholar
Rothenflug, R., Ballet, J., Dubner, G., Giacani, E., Decourchelle, A.et al. 2004, A&A, 425, 121Google Scholar
Slane, P. 2013, this proceedingsGoogle Scholar
Slane, P., Gaensler, B. M., Dame, T. M., Hughes, J. P., Plucinsky, P. P., & Green, A. 1999, ApJ, 525, 357Google Scholar
Slane, P., Hughes, J. P., Edgar, R. J., Plucinsky, P. P., Miyata, E., Tsunemi, H., & Aschenbach, B. 2001, ApJ, 548, 814Google Scholar
Tian, W. W., Li, Z., Leahy, D. A., Yang, J., Yang, X. J.et al. 2010, ApJ, 712, 790Google Scholar
Uchiyama, Y., Aharonian, F. A., Tanaka, T., Takahashi, T., & Maeda, Y. 2007, Nature, 449, 576Google Scholar
Uchiyama, Y. & Aharonian, F. A. 2008, ApJ, 677, L105Google Scholar
Vink, J. & Laming, J. M. 2003, ApJ, 584, 758Google Scholar
Vink, J., Bleeker, J., van der Heyden, K., Bykov, A., Bamba, A.et al. 2006, ApJ, 648, L33Google Scholar
Völk, H. J., Berezhko, E. G., & Ksenofontov, L. T. 2005, A&A, 433, 229Google Scholar
Völk, H. J., Ksenofontov, L. T., & Berezhko, E. G., 2008, A&A 490, 515Google Scholar
Warren, J. S., Hughes, J. P., Badenes, C., Ghavamian, P., McKee, C. F., Moffett, D., Plucinsky, P. P., Rakowski, C., Reynoso, E., & Slane, P. 2005, ApJ 634, 376Google Scholar