Temperature evolution of dense gold and diamond heated by energetic laser-driven aluminum ions

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 sam… Show more

“…These interactions induce the energy transfer from the hot ions to the electrons via ionization and excitation processes, resulting in the energy loss of the hot ions. These energy losses can be estimated by calculating the stopping powers, and we have used a Monte Carlo simulation code, SRIM [37][38][39], for these calculations. (See supplementary figures S3-S6 for details.)…”

Neutron yield scaling law in laser-cluster fusion experiments

“…These interactions induce the energy transfer from the hot ions to the electrons via ionization and excitation processes, resulting in the energy loss of the hot ions. These energy losses can be estimated by calculating the stopping powers, and we have used a Monte Carlo simulation code, SRIM [37][38][39], for these calculations. (See supplementary figures S3-S6 for details.)…”

Neutron yield scaling law in laser-cluster fusion experiments

Characteristics of electron beams accelerated by parallel and antiparallel circularly polarized Laguerre–Gaussian laser pulses

Electron-ion relaxation times in 1–100 eV warm dense aluminum and gold