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This Concept Map, created with IHMC CmapTools, has information related to: Microstructure, minimization of interface and surface energy and GB area results Large grains with low surface and interface energy, Volmer–Weber mode. Stages 1 - Nucleation, 3 - Impimgement and Coalecsence with No coarsening, Zone 1 with Policrystaline columns or amorphous (smaller more equiaxed grains), Abnormal grain growth (secondary recrystalization) result much larger in-plane grain size, Protruding surfaces Capture more off-normal flux grains with low surface diffusivities grow faster., Zone 1 with Initial in-plane grain sizes: saturation nucleation density., Competitive grain growth Anisotropic surface adatoms on high diffusivity planes have longer mean free paths, Thin film growth processes during kinetically limited low-temperature deposition Ts less than 0.2–0.3 of the Tmn Film synthesis generally takes place far from thermo- dynamic equilibrium., Zone T with minimization of interface and surface energy, Surface diffusion High Zone 2, Zone T with film thickening through local epitaxy on individual grains., Cahnge of film properties with thickness nera substrate Randomly oriented small grains out of which V-shaped columns with the favored orientations slowly emerge and overgrow kinetically disadvantaged columns., Zone 1 with columns preserve the random orientation of the nuclei, Surface diffusion affected by Temperature, Cahnge of film properties with thickness leads to Considerable surface roughness (scales with in-plane grain size), minimization of interface and surface energy and GB area Strong Preferred orientation, Volmer–Weber mode. Stages 3 - Impimgement and Coalecsence, Bulk diffusion Important Zone 2, Zone 1 with Underdense