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Gamma-ray line measurements from supernova explosions

Published online by Cambridge University Press:  17 October 2017

Roland Diehl*
Affiliation:
Max Planck Institut für extraterrestrische Physik Giessenbachstr. 1, D-85748 Garching, Germany email: rod@mpe.mpg.de
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Abstract

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Gamma ray lines are expected to be emitted as part of the afterglow of supernova explosions, because radioactive decay of freshly synthesised nuclei occurs. Significant radioactive gamma ray line emission is expected from 56Ni and 44Ti decay on time scales of the initial explosion (56Ni, τ ~days) and the young supernova remnant (44Ti,τ ~90 years). Less specific, and rather informative for the supernova population as a whole, are lessons from longer lived isotopes such as 26Al and 60Fe. From isotopes of elements heavier than iron group elements, any interesting gamma-ray line emission is too faint to be observable. Measurements with space-based gamma-ray telescopes have obtained interesting gamma ray line emissions from two core collapse events, Cas A and SN1987A, and one thermonuclear event, SN2014J. We discuss INTEGRAL data from all above isotopes, including all line and continuum signatures from these two objects, and the surveys for more supernovae, that have been performed by gamma ray spectrometry. Our objective here is to illustrate what can be learned from gamma-ray line emission properties about the explosions and their astrophysics.

Type
Contributed Papers
Copyright
Copyright © International Astronomical Union 2017 

References

Boggs, S. E., Harrison, F. A., Miyasaka, H., et al. 2015, Science, 348, 670 CrossRefGoogle Scholar
Churazov, E., Sunyaev, R., Isern, J., et al. 2014, Nature, 512, 406 CrossRefGoogle Scholar
Diehl, R. 2013, Reports on Progress in Physics, 76, 026301 CrossRefGoogle Scholar
Diehl, R., Dupraz, C., Bennett, K., et al. 1995, Astron. & Astroph., 298, 445 Google Scholar
Diehl, R., Kretschmer, K., Plüschke, S., et al. 2003, Astronomische Nachrichten Supplement, 324, 18 Google Scholar
Diehl, R., Siegert, T., Hillebrandt, W., et al. 2014, Science, 345, 1162 CrossRefGoogle Scholar
Diehl, R., Siegert, T., Hillebrandt, W., et al. 2015, Astron. & Astroph., 574, A72 CrossRefGoogle Scholar
Dufour, F. & Kaspi, V. M. 2013, Astroph. J., 775, 52 CrossRefGoogle Scholar
Dupraz, C., Bloemen, H., Bennett, K., et al. 1997, Astron. & Astroph., 324, 683 Google Scholar
Grebenev, S. A., Lutovinov, A. A., Tsygankov, S., & Winkler, C. 2012, Nature, (tbd), (accepted for publication)Google Scholar
Grefenstette, B. W., Fryer, C. L., Harrison, F. A., et al. 2017, Astroph. J., 834, 19 CrossRefGoogle Scholar
Grefenstette, B. W., Harrison, F. A., Boggs, S. E., et al. 2014, Nature, 506, 339 CrossRefGoogle Scholar
Hillebrandt, W., Kromer, M., Röpke, F. K., & Ruiter, A. J. 2013, Frontiers of Physics, 8, 116 CrossRefGoogle Scholar
Iwamoto, K., Brachwitz, F., Nomoto, K., et al. 1999, Astroph. J. Supp., 125, 439 CrossRefGoogle Scholar
Iyudin, A. F., Schönfelder, V., Bennett, K., et al. 1999, Astrophysical Letters Communications, 38, 383 Google Scholar
Krause, M., Diehl, R., Böhringer, H., Freyberg, M., & Lubos, D. 2014, Astron. & Astroph., 566, A94 CrossRefGoogle Scholar
Krause, M. G. H., Diehl, R., Bagetakos, Y., et al. 2015, Astron. & Astroph., 578, A113 CrossRefGoogle Scholar
Kretschmer, K., Diehl, R., Krause, M., et al. 2013, Astron. & Astroph., 559, A99 CrossRefGoogle Scholar
Leventhal, M., MacCallum, C. J., & Stang, P. D. 1978, Astroph. J. Lett., 225, L11 CrossRefGoogle Scholar
Magkotsios, G., Timmes, F. X., Hungerford, A. L., et al. 2010, Astroph. J. Supp., 191, 66 CrossRefGoogle Scholar
Mahoney, W. A., Ling, J. C., Jacobson, A. S., & Lingenfelter, R. E. 1982, Astroph. J., 262, 742 CrossRefGoogle Scholar
Martin, P., Knödlseder, J., Vink, J., Decourchelle, A., & Renaud, M. 2009, Astron. & Astroph., 502, 131 CrossRefGoogle Scholar
Matz, S. M., Share, G. H., Leising, M. D., Chupp, E. L., & Vestrand, W. T. 1988, Nature, 331, 416 CrossRefGoogle Scholar
McCray, R. & Fransson, C. 2016, Ann. Rev. Astron. & Astroph., 54, 19 CrossRefGoogle Scholar
Nomoto, K., Thielemann, F.-K., & Yokoi, K. 1984, Astroph. J., 286, 644 CrossRefGoogle Scholar
Nomoto, K., Tominaga, N., Umeda, H., Kobayashi, C., & Maeda, K. 2006, Nuclear Physics A, 777, 424 CrossRefGoogle Scholar
Prantzos, N. & Diehl, R. 1996, Phys. Rep., 267, 1 CrossRefGoogle Scholar
Ramaty, R., Kozlovsky, B., & Lingenfelter, R. E. 1979, Astroph. J. Supp., 40, 487 CrossRefGoogle Scholar
Renaud, M., Vink, J., Decourchelle, A., et al. 2006a, Astroph. J. Lett., 647, L41 CrossRefGoogle Scholar
Renaud, M., Vink, J., Decourchelle, A., et al. 2006b, New Astronomy Review, 50, 540 CrossRefGoogle Scholar
Röpke, F. K., Seitenzahl, I. R., Benitez, S., et al. 2011, Progress in Particle and Nuclear Physics, 66, 309 CrossRefGoogle Scholar
Rothschild, R. E., Lingenfelter, R. E., Blanco, P. R., et al. 1999, Nuclear Physics B Proceedings Supplements, 69, 68 CrossRefGoogle Scholar
Seitenzahl, I. R., Ciaraldi-Schoolmann, F., Röpke, F. K., et al. 2013, Mon. Not. Royal Astr. Soc., 429, 1156 CrossRefGoogle Scholar
Siegert, T., Diehl, R., Krause, M. G. H., & Greiner, J. 2015, Astron. & Astroph., 579, A124 CrossRefGoogle Scholar
The, L.-S., Clayton, D. D., Diehl, R., et al. 2006, Astron. & Astroph., 450, 1037 CrossRefGoogle Scholar
The, L.-S., Leising, M. D., Kurfess, J. D., et al. 1996, Astron. & Astroph. Suppl., 120, C357+Google Scholar
Thielemann, F.-K., Hirschi, R., Liebendörfer, M., & Diehl, R. 2011, in Lecture Notes in Physics, Berlin Springer Verlag, Vol. 812, Lecture Notes in Physics, Berlin Springer Verlag, ed. Diehl, R., Hartmann, D. H., & Prantzos, N., 153–232CrossRefGoogle Scholar
Troja, E., Segreto, A., La Parola, V., et al. 2014, Astroph. J. Lett., 797, L6 CrossRefGoogle Scholar
Tsygankov, S. S., Krivonos, R. A., Lutovinov, A. A., et al. 2016, Mon. Not. Royal Astr. Soc., 458, 3411 CrossRefGoogle Scholar
Tueller, J., Barthelmy, S., Gehrels, N., et al. 1990, Astroph. J. Lett., 351, L41 CrossRefGoogle Scholar
Vedrenne, G., Roques, J.-P., Schönfelder, V., et al. 2003, Astron. & Astroph., 411, L63 CrossRefGoogle Scholar
Vink, J. 2004, New Astron. Rev., 48, 61 CrossRefGoogle Scholar
Vink, J., Laming, J. M., Kaastra, J. S., et al. 2001, Astroph. J. Lett., 560, L79 CrossRefGoogle Scholar
Wang, W. & Li, Z. 2014, Astroph. J., 789, 123 CrossRefGoogle Scholar