H.U. Jäger scite author profile

Molecular-dynamics calculations were performed to simulate ion beam deposition of diamond-like carbon films. Using the computationally efficient analytical potentials of Tersoff and Brenner we are able to simulate more than 103 carbon atom impacts on {111} diamond, so that steady-state film properties can be computed and analyzed. For the Tersoff potential, we achieve sp3 fractions approximately half of the experimentally observed values. For the more refined hydrocarbon potentials of Brenner the fraction of tetrahedrally coordinated atoms is much too low, even if structures with densities close to diamond are obtained. We show, that the sp3 contents calculated with Tersoff’s potential are an artifact related to the overbinding of specific bonding configurations between three- and fourfold coordinated sites. On the other hand, we can prove, that the range for the binding orbitals represented by the cutoff function is too short in Brenner’s parametrization. If an increased C–C interaction cutoff value is chosen, we achieve a distinct improvement in modeling the sp3 content of deposited ta-C films. As a result we compute sp3 fractions which lie between 52% and 95% for the C+ ion energies E=30–80 eV and are in reasonable agreement with recent experimental studies.

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ta-C deposition simulations: Film properties and time-resolved dynamics of film formation

Jäger

Belov

2003

Phys. Rev. B

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Evolution ofsp2networks with substrate temperature in amorphous carbon films: Experiment and theory

et al. 2005

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Surface roughness evolution and growth mechanism of carbon films from hyperthermal species

Lifshitz

Edrei

Hoffman

et al. 2007

Diamond and Related Materials

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Structure of high-spin states in 143Pm

et al. 1980

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H.U. Jäger

Molecular-dynamics simulations of steady-state growth of ion-deposited tetrahedral amorphous carbon films

ta-C deposition simulations: Film properties and time-resolved dynamics of film formation

Evolution ofsp2networks with substrate temperature in amorphous carbon films: Experiment and theory

Surface roughness evolution and growth mechanism of carbon films from hyperthermal species

Structure of high-spin states in 143Pm

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