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Abstract
Recent studies have shown that energetic laser-driven ions with some energy spread can heat small solid-density samples uniformly. The balance among the energy losses of the ions with different kinetic energies results in uniform heating. Although heating with an energetic laser-driven ion beam is completed within a nanosecond and is often considered sufficiently fast, it is not instantaneous. Here we present a theoretical study of the temporal evolution of the temperature of solid-density gold and diamond samples heated by a quasimonoenergetic aluminum ion beam. We calculate the temporal evolution of the predicted temperatures of the samples using the available stopping power data and the SESAME equation-of-state tables. We find that the temperature distribution is initially very uniform, which becomes less uniform during the heating process. Then, the temperature uniformity gradually improves, and a good temperature uniformity is obtained toward the end of the heating process.
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Details
1 GIST, Department of Physics and Photon Science, Gwangju, South Korea (GRID:grid.61221.36) (ISNI:0000 0001 1033 9831); Institute for Basic Science, Center for Relativistic Laser Science, Gwangju, South Korea (GRID:grid.410720.0) (ISNI:0000 0004 1784 4496)