Photonuclear physics when a multiterawatt laser pulse interacts with solid targets |
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| Authors: | Ledingham Spencer McCanny Singhal Santala Clark Watts Beg Zepf Krushelnick Tatarakis Dangor Norreys Allott Neely Clark Machacek Wark Cresswell Sanderson Magill |
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| Affiliation: | Department of Physics and Astronomy, University of Glasgow, Glasgow G12 8QQ, United Kingdom. |
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| Abstract: | When a laser pulse of intensity 10(19) W cm(-2) interacts with solid targets, electrons of energies of some tens of MeV are produced. In a tantalum target, the electrons generate an intense highly directional gamma-ray beam that can be used to carry out photonuclear reactions. The isotopes 11C, 38K, (62,64)Cu, 63Zn, 106Ag, 140Pr, and 180Ta have been produced by (gamma,n) reactions using the VULCAN laser beam. In addition, laser-induced nuclear fission in 238U has been demonstrated, a process which was theoretically predicted at such laser intensities more than ten years ago. The ratio of the 11C and the 62Cu beta(+) activities yields shot-by-shot temperatures of the suprathermal electrons at laser intensities of approximately 10(19) W cm(-2). |
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