M
Mauro Temporal
Researcher at University of Castilla–La Mancha
Publications - 50
Citations - 1525
Mauro Temporal is an academic researcher from University of Castilla–La Mancha. The author has contributed to research in topics: Inertial confinement fusion & Beam (structure). The author has an hindex of 22, co-authored 49 publications receiving 1454 citations. Previous affiliations of Mauro Temporal include Technical University of Madrid & European Atomic Energy Community.
Papers
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Numerical study of fast ignition of ablatively imploded deuterium–tritium fusion capsules by ultra-intense proton beams
TL;DR: In this paper, the authors studied the effects of deuterium-tritium fuel compression and ignition under conditions relevant to the scheme of fast ignition by laser generated proton beams.
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Proposal for the Study of Thermophysical Properties of High-Energy-Density Matter Using Current and Future Heavy-Ion Accelerator Facilities at GSI Darmstadt
Naeem A. Tahir,Claude Deutsch,Vladimir E. Fortov,V. K. Gryaznov,Dieter H. H. Hoffmann,M. Kulish,Igor V. Lomonosov,V. B. Mintsev,P. Ni,Dmitry Nikolaev,A. R. Piriz,N. S. Shilkin,Peter Spiller,A. Shutov,Mauro Temporal,Vladimir Ya. Ternovoi,Serban Udrea,Dmitry Varentsov +17 more
TL;DR: The purpose of this Letter is to investigate with the help of two-dimensional numerical simulations, the potential of the FAIR to carry out research in the field of HED states in matter.
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A first analysis of fast ignition of precompressed ICF fuel by laser-accelerated protons
TL;DR: In this paper, the main parameters of the beam required to ignite a precompressed DT fuel, as foreseen by the recently proposed scheme of fast ignition by laser-accelerated protons (Roth et al 2001 Phys. Rev. 86 436), are studied by 2D numerical simulations and a simple model.
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Fast ignition of inertial fusion targets by laser-driven carbon beams
TL;DR: In this paper, the effect of the coronal plasma surrounding the compressed deuterium-tritium is studied for three different fuel density distributions, and it is found that quasimonoenergetic ions have better coupling with the compressed compressed deutium tritium and substantially lower ignition energies.
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Symmetry analysis of cylindrical implosions driven by high-frequency rotating ion beams
TL;DR: In this paper, a symmetry analysis of the cylindrical target implosion driven by a high-frequency rotating beam of heavy ions is presented, and the non-uniformity generated by such a system is studied by developing an analytical model and by performing two-dimensional simulations.