| Literature DB >> 18851220 |
A Giulietti1, N Bourgeois, T Ceccotti, X Davoine, S Dobosz, P D'Oliveira, M Galimberti, J Galy, A Gamucci, D Giulietti, L A Gizzi, D J Hamilton, E Lefebvre, L Labate, J R Marquès, P Monot, H Popescu, F Réau, G Sarri, P Tomassini, P Martin.
Abstract
A gamma-ray source with an intense component around the giant dipole resonance for photonuclear absorption has been obtained via bremsstrahlung of electron bunches driven by a 10-TW tabletop laser. 3D particle-in-cell simulation proves the achievement of a nonlinear regime leading to efficient acceleration of several sequential electron bunches per each laser pulse. The rate of the gamma-ray yield in the giant dipole resonance region (8<E{gamma}<17.5 MeV) was measured, through the radio activation of a gold sample, to be 4 x 10;{8} photons per joule of laser energy. This novel all-optical, compact, and efficient electron-gamma source is suitable for photonuclear studies and medical uses.Entities:
Year: 2008 PMID: 18851220 DOI: 10.1103/PhysRevLett.101.105002
Source DB: PubMed Journal: Phys Rev Lett ISSN: 0031-9007 Impact factor: 9.161