Abstract
Recently, attention has been focused upon laser plasma sources of thin-film diamond. The paper reports a model of an expanding carbon plasma ablated from graphite feedstock by a focused laser beam. The model includes as essential ingredients adiabatic cooling of plasma electrons and electron-ion recombination through both collisional and radiative processes. It is shown that, under experimental conditions that have been proven relevant for producing hard amorphic diamond films characterized by a high percentage of sp3 bonds, the plasma is composed of multiple-charged carbon ions with kinetic energies of the order of 1 keV. This ionization can readily survive plasma transport to substrates positioned a few centimetres from the graphite target.
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