ERECTRON-ENERGY-LOSS SPECTROSCOPY OF MASS-SELECTED ION-BEAM-DEPOSITEDDIAMOND-LIKE CARBON

Amorphous diamondlike carbon (DLC) films grown by low-energy mass-sele cted ion-beam deposition have been examined by electron-energy-loss sp ectroscopy (EELS). Films grown using deposition energies of 50, 120, a nd 300 eV have been studied. For these deposition energies, all films exhibit similar EELS characteristics indicating a very high degree of sp(3) bonding, The bulk plasmon resonance is intermediate between that of graphite and that of diamond; however, the properties of the low-e nergy-loss spectra of the DLC films are more similar to those of diamo nd. The near-K-edge carbon EELS data from the films exhibit a pi feat ure which is much smaller than that of graphite or evaporated carbon. The use of previously proposed computational methods on the near-K-edg e EELS data indicates that over 80% of the carbon atoms are sp(3) bond ed. The size of the pi feature is larger for smaller plasmon energies , as expected. The present data are in accord with other analyses of s imilar films that indicate a broad (similar to 30-300 eV) energy windo w for diamondlike film formation.