Marc Robinson scite author profile

Radiation damage cascades in diamond are studied by molecular dynamics simulations employing the Environment Dependent Interaction Potential for carbon. Primary knock-on atom (PKA) energies up to 2.5 keV are considered and a uniformly distributed set of 25 initial PKA directions provide robust statistics. The simulations reveal the atomistic origins of radiation-resistance in diamond and provide a comprehensive computational analysis of cascade evolution and dynamics. As for the case of graphite, the atomic trajectories are found to have a fractal-like character, thermal spikes are absent and only isolated point defects are generated. Quantitative analysis shows that the instantaneous maximum kinetic energy decays exponentially with time, and that the timescale of the ballistic phase has a power-law dependence on PKA energy. Defect recombination is efficient and independent of PKA energy, with only 50% of displacements resulting in defects, superior to graphite where the same quantity is nearly 75%

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Systematic calculation of threshold displacement energies: Case study in rutile

Robinson

Marks

Whittle

et al. 2012

Phys. Rev. B

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Simulating radiation damage in δ-plutonium

Robinson

Kenny

Smith

et al. 2009

Nuclear Instruments and Methods in Physics Research Section B:

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Marc Robinson

Mechanism for the Amorphisation of Diamond

Simulating radiation damage cascades in graphite

Molecular dynamics simulation of radiation damage cascades in diamond

Systematic calculation of threshold displacement energies: Case study in rutile

Simulating radiation damage in δ-plutonium

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