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Bonding topologies in diamondlike amorphous-carbon films

Siegal, Michael P.; Provencio, P.N.; Tallant, David T.; Simpson, Regina L.; Kleinsorge, B.; Milne, W.I.

The carbon ion energy used during filtered cathodic vacuum arc deposition determines the bonding topologies of amorphous-carbon (a-C) films. Regions of relatively low density occur near the substrate/film and film/surface interfaces; their thicknesses increase with deposition energy. The ion subplantation growth results in mass density gradients in the bulk portion of a-C in the growth direction; density decreases with distance from the substrate for films grown using ion energies <60 eV and increases for films grown using ion energies >160 eV. Films grown between these energies are the most diamondlike with relatively uniform bulk density and the highest optical transparencies. Bonding topologies evolve with increasing growth energy consistent with the propagation of subplanted carbon ions inducing a partial transformation of σ-to π-bonded carbon atoms. © 2000 American Institute of Physics.