TY - JOUR
AU - John, T.-M.
AB - Molybdenum films sputter-deposited at low pressure show a (110) to (211) texture turnover with increasing film thickness, which is accompanied by a transition from a fiber texture to a mosaic-like texture. The degree of (002) texturing of sputtered aluminum nitride (AlN) films strongly depends on nitrogen pressure in Ar/N2 or in a pure N2 atmosphere. For the understanding of these phenomena, the power density at the substrate during sputter deposition was measured by a calorimetric method and normalized to the flux of deposited atoms. For the deposition of Mo films and various other elemental films, the results of the calorimetric measurements are well described by a model. This model takes into account the contributions of plasma irradiation, the heat of condensation and the kinetic energy of sputtered atoms and reflected Ar neutrals. The latter two were calculated by TRIM.SP Monte Carlo simulations. An empirical rule is established showing that the total energy input during sputter deposition is proportional to the ratio of target atomic mass to sputtering yield. For the special case of a circular planar magnetron the radial dependence of the Mo and Ar fluxes and related momentum components at the substrate were calculated. It is concluded that mainly the lateral inhomogeneous radial momentum component of the Mo atoms is the cause of the in-plane texturing. For AlN films, maximum (002) texturing appears at about 250 eV per atom energy input.
TI - Texturing effects in molybdenum and aluminum nitride films correlated to energetic bombardment during sputter deposition
JF - Applied Physics A: Materials Science  Processing
DO - 10.1007/s003390100812
DA - 2001-05-01
UR - https://www.deepdyve.com/lp/springer-journals/texturing-effects-in-molybdenum-and-aluminum-nitride-films-correlated-R2V78x0mgH
SP - 541
EP - 550
VL - 72
IS - 5
DP - DeepDyve
ER -