"312519" . . . . . "Klimo, Ond\u0159ej" . . "0093-3813" . . "4"^^ . . . "21340" . "P(LC528), Z(MSM6840770022)" . "Limpouch, Ji\u0159\u00ED" . "In a proton beam generation by a laser-foil interaction, significant improvement of energy-conversion efficiency from laser to proton beam is presented by particle simulations. A tailored multihole thin-foil target is proposed in order to increase the energy-conversion efficiency from laser to protons. The multiholes transpiercing the foil target enhance the laser-proton energy-conversion efficiency significantly. Particle-in-cell 2.5-dimensional simulations present that the total laser-proton energy-conversion efficiency becomes 9.3% for the tailored multihole target, although the energy-conversion efficiency is 1.5% for a plain thin-foil target. The maximum proton energy is 10.0 MeV for the multihole target and is 3.14 MeV for the plain target. The transpiercing multihole target serves a new method to increase the energy-conversion efficiency from laser to ions."@en . . . "RIV/68407700:21340/09:00162636!RIV10-MSM-21340___" . . "2"^^ . . . "IEEE Transactions on Plasma Science" . "000265376300003" . "Efficient Production of Proton Beam in Laser-Illuminated Tailored Microstructured Target" . . "6"^^ . "In a proton beam generation by a laser-foil interaction, significant improvement of energy-conversion efficiency from laser to proton beam is presented by particle simulations. A tailored multihole thin-foil target is proposed in order to increase the energy-conversion efficiency from laser to protons. The multiholes transpiercing the foil target enhance the laser-proton energy-conversion efficiency significantly. Particle-in-cell 2.5-dimensional simulations present that the total laser-proton energy-conversion efficiency becomes 9.3% for the tailored multihole target, although the energy-conversion efficiency is 1.5% for a plain thin-foil target. The maximum proton energy is 10.0 MeV for the multihole target and is 3.14 MeV for the plain target. The transpiercing multihole target serves a new method to increase the energy-conversion efficiency from laser to ions." . . "Efficient Production of Proton Beam in Laser-Illuminated Tailored Microstructured Target"@en . . "short-pulse laser; ion acceleration"@en . "4" . . "37" . "Efficient Production of Proton Beam in Laser-Illuminated Tailored Microstructured Target" . "Efficient Production of Proton Beam in Laser-Illuminated Tailored Microstructured Target"@en . "RIV/68407700:21340/09:00162636" . "US - Spojen\u00E9 st\u00E1ty americk\u00E9" . "[9C029845A03B]" .