@conference{
author = "Trtica, Milan and Stašić, Jelena and Limpouch, Jiri and Gavrilov, P.",
year = "2021",
abstract = "Nuclear fusion (NF) as a source of clean energy is of interest to many governments, research groups, etc., nowadays. In order for NF to be applied in full capacity, certain problems related to plasma physics and reactor technology should be overcome [1]. In the main, there are two approaches at this moment, the first one based on magnetic confinement and the second one based on inertial confinement fusion, i.e. laser concept. Focusing only on the reactor technology, it is of high importance, among other, to apply the reactor materials (RM) possessing high resistance to thermal and radiation (including electromagnetic) flux [2]. In this context, the behavior of fusion RM, particularly potential plasma facing materials (PFM), will be observed. In nuclear reactor, the PFM are exposed to various fluxes such as the neutrons, alfa-particles, electromagnetic, thermal, hydrogen isotopes. These high thermal as well as electromagnetic fluxes can be, in one approximation, simulated by high-intensity laser radiation [3, 4]. Examples of high intensity femtosecond laser – material interaction will be presented in this work. The materials, i.e. candidates for PFM like tungsten, oxide dispersion strengthened (ODS) steel, will be investigated under the action of high laser intensity of the order of 1014 W/cm2 [5, 6]. Also, the presence of hydrogen isotopes in PFM will be analyzed.",
journal = "AMPL-2021 : 15TH International conference Pulsed Lasers and Laser Applications : Book of abstracts",
title = "Ultrashort laser - fusion material interaction",
volume = "102",
pages = "6-7",
url = "https://hdl.handle.net/21.15107/rcub_vinar_12097"
}
