Abstract
The generation of shock waves by energetic gas cluster impact on a solid surface was studied by use of two-dimensional (2D) molecular dynamics. The collisions of Ar n ( n ∼ 200–350) clusters with the target of 40 000 atoms were modeled. The atomic scale shock waves arising from cluster impact have been obtained by calculating the pressure, temperature and mass-velocity of the target atoms. The asymptotic time dependence of distances travelled by a shock wave front is well described by a power law R ∼ t α , with a constant α = 0.6 for cluster energies between 17 and 85 eV per atom.
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