Laser induced ablation of aluminum nanoparticle: a molecular dynamics study
R Fahdiran and E Handoko and I Sugihartono and HM Urbassek, 3RD ANNUAL APPLIED SCIENCE AND ENGINEERING CONFERENCE (AASEC 2018), 197, 04004 (2018).
DOI: 10.1051/matecconf/201819704004
We investigate ablation of Aluminum nanoparticle due to ultrashort high- intensity laser pulse. Molecular dynamics simulation is used to follow the evolution of the system and observe thermodynamics together with cluster properties. The energy given from the laser to the system is 1.5 eV/atom which is above ablation threshold and modelled using instantaneous and homogenous energization at the beginning of simulation. The evolution of the system shows a highly non-equilibrium state after the irradiation. Expansion of the sphere indicated that the system cannot survive from the temporary high tensile pressure that leads to ablation. While the high temperature consecutively responsible for the formation of cluster, it also indicated that the system is relaxed at the end of the simulation.
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