Hostname: page-component-586b7cd67f-rcrh6 Total loading time: 0 Render date: 2024-11-25T06:59:28.306Z Has data issue: false hasContentIssue false

Measuring Cosmic Elements with Gamma-Ray Telescopes

Published online by Cambridge University Press:  05 March 2013

Roland Diehl*
Affiliation:
Max Planck Institut für extraterrestrische Physik, D-85748 Garching, Germany. Email: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Gamma-ray telescopes are capable of measuring radioactive trace isotopes from cosmic nucleosynthesis events. Such measurements address new isotope production rather directly for a few key isotopes such as 44Ti, 26Al, 60Fe, and 56Ni, as well as positrons from the β+-decay variety. Experiments of the past decades have now established an astronomy with γ-ray lines, which is an important part of the study of nucleosynthesis environments in cosmic sources. For massive stars and supernovae, important constraints have been set: Co isotope decays in SN1987A directly demonstrated the synthesis of new isotopes in core-collapse supernovae, 44Ti from the 340-year-old Cas A supernova supports the concept of α-rich freeze-out, but results in interesting puzzles pursued by theoretical studies and future experiments. 26Al and 60Fe has been measured from superimposed nucleosynthesis within our Galaxy, and sets constraints on massive-star interior structure through its intensity ratio of ∼15%. The 26Al γ-ray line is now seen to trace current star formation and even the kinematics of interstellar medium throughout the Galaxy. Positron annihilation emission from nucleosynthesis throughout the plane of our Galaxy appears to be mainly from 26Al and other supernova radioactivity, but the striking brightness of the Galaxy's bulge region in positron annihilation γ-rays presents a puzzle involving several astrophysics issues beyond nuclear astrophysics. This paper focuses mainly on a discussion of 26Al and 60Fe from massive-star nucleosynthesis.

Type
Observations
Copyright
Copyright © Astronomical Society of Australia 2009

References

Asplund, M., 2005, ARA&A, 43, 481 Google Scholar
Balsara, D. S., Bendinelli, A. J., Tilley, D. A., Massari, A. R. & Howk, J. C., 2008, MNRAS, 386, 642 CrossRefGoogle Scholar
Burbidge, E. M., Burbidge, G. R., Fowler, W. A. & Hoyle, F., 1957, RvMP, 29, 547 Google Scholar
Chen, W. et al., 1997, ESASP, 382, 105 Google Scholar
Chieffi, A. & Limongi, M., 2002, NewAR, 46, 459 Google Scholar
Chieffi, A. & Limongi, M., 2007, MmSAI, 78, 538 Google Scholar
Chiappini, C., Matteucci, F. & Gratton, R., 1997, ApJ, 477, 765 CrossRefGoogle Scholar
Chiappini, C., Romano, D. & Matteucci, F., 2003, Ap&SS, 284, 771 Google Scholar
Clayton, D. D., 2008, NewAR, 52, 360 Google Scholar
Clayton, D. D. & Silk, J., 1969, ApJ, 158, L43 Google Scholar
Clayton, D. D. & Hoyle, F. 1974, ApJ, 187, L101 Google Scholar
Daflon, S. & Cunha, K., 2004, ApJ, 617, 1115 Google Scholar
Diehl, R. & Timmes, F. X., 1998, PASP, 110, 637 Google Scholar
Diehl, R. et al., 1995, A&A, 298, 445 Google Scholar
Diehl, R., Prantzos, N. & von Ballmoos, P., 2006, NuPhA, 777, 70 Google Scholar
Diehl, R. et al., 2006, Natur, 439, 45 Google Scholar
Diehl, R. et al., 2006, A&A, 449, 1025 Google Scholar
Gounelle, M. & Meibom, A., 2008, ApJ, 680, 781 Google Scholar
Harris, M. J. et al., 2005, A&A, 433, L49 Google Scholar
Heil, M., Käppeler, F., Uberseder, E., Gallino, R. & Pignatari, M., 2007, PrPNP, 59, 174 Google Scholar
Hernanz, M. & José, J., 2004, NewAR, 48, 35 Google Scholar
Hirschmann, A., Bravo, E. & Isern, J., 2007, ASPC, 372, 407 Google Scholar
Iyudin, A. F. et al., 1995, A&A, 300, 422 Google Scholar
Iyudin, A. F. et al., 1994, A&A, 284, L1 Google Scholar
Knie, K., Korschinek, G., Faestermann, T., Dorfi, E. A., Rugel, G. & Wallner, A., 2004, PhRvL, 93, 171103Google Scholar
Knödlseder, J. et al., 2005, A&A, 441, 513 Google Scholar
Kurfess, J. D. et al., 1992, ApJ, 399, L137 Google Scholar
Leising, M. D., 1994, ApJS, 92, 495 Google Scholar
Leising, M. D. & Share, G. H., 1994, ApJ, 424, 200 Google Scholar
Limongi, M. & Chieffi, A., 2006a, NewAR, 50, 474 Google Scholar
Limongi, M. & Chieffi, A., 2006b, ApJ, 647, 483 Google Scholar
Lin, R. P. et al., 2002, SoPh, 210, 3 Google Scholar
Lingenfelter, R. E. & Ramaty, R., 1978, PhT, 31, 40 Google Scholar
MacPherson, G. J., Davis, A. M. & Zinner, E. K., 1995, Metic, 30, 365 Google Scholar
Mahoney, W. A., Ling, J. C., Jacobson, A. S. & Lingenfelter, R. E., 1982, ApJ, 262, 742 Google Scholar
Mahoney, W. A., Ling, J. C., Wheaton, W. A. & Jacobson, A. S., 1984, ApJ, 286, 578 Google Scholar
Martin, P. & Vink, J., 2008, NewAR, 52, 401 Google Scholar
Matteucci, F., 2003, The Chemical Evolution of the Galaxy, ASSL 253 (Dordrecht: Kluwer Academic Publishers)Google Scholar
Matz, S. M., Share, G. H., Leising, M. D., Chupp, E. L. & Vestrand, W. T., 1988, Natur, 331, 416 Google Scholar
Naya, J. E., Barthelmy, S. D., Bartlett, L. M., Gehrels, N., Parsons, A., Teegarden, B. J., Tueller, J. & Leventhal, M., 1998, ApJ, 499, L169 Google Scholar
Plüschke, S. et al., 2001, ESASP, 459, 55 Google Scholar
Prantzos, N., 2004, A&A, 420, 1033 Google Scholar
Prantzos, N., 2006, NewAR, 50, 553 Google Scholar
Prantzos, N. & Diehl, R., 1996, PhR, 267, 1 Google Scholar
Rugel, G. et al., submitted to PRLGoogle Scholar
Smith, D. M., 2004, ESASP, 552, 45 Google Scholar
Teegarden, B. J., Barthelmy, S. D., Gehrels, N., Tueller, J. & Leventhal, M., 1989, Natur, 339, 122 Google Scholar
Timmes, F. X., Woosley, S. E., Hartmann, D. H., Hoffman, R. D., Weaver, T. A. & Matteucci, F., 1995, ApJ, 449, 204 CrossRefGoogle Scholar
Timmes, F. X., Woosley, S. E., Hartmann, D. H. & Hoffman, R. D., 1996, ApJ, 464, 332 Google Scholar
Vedrenne, G. et al., 2003, A&A, 411, L63 Google Scholar
Vink, J., 2005, AdSpR, 35, 976 Google Scholar
Wang, W. et al., 2007, A&A, 469, 1005 Google Scholar
Wang, W. et al., 2009, A&A, 496, 713 Google Scholar
Weidenspointner, G. et al., 2008, Natur, 451, 159 Google Scholar
Winkler, C. et al., 2003, A&A, 411, L1 Google Scholar
Woosley, S. E. & Heger, A., 2007, 442, 269 Google Scholar