| 摘要 |
It has been discovered that control of the intra-layer stress in layers of high refractive index materials, such as zirconia and titania, permits low net stress multilayer thin film stacks comprising alternating layers of the high refractive index material and silica, a low refractive index material, to be sputter-deposited on glass substrates. In particular, a simple, cost-effective and readily reproducible post-deposition annealing process is used, i.e., an annealing process that can be effected within a broad temperature range and for a brief and substantially open-ended time period, to change the post-deposition microstructure of the high refractive index film layers and create a selected intra-layer tensile stress. The intra-layer tensile stress created during such an annealing process is largely dependent on the post-deposition microstructure of the high refractive index thin film layers. It has been further discovered that the deposition conditions and, in particular, ion bombardment energy, can be controlled to provide a selected and reproducible post-deposition microstructure that is partially amorphous and partially crystalline and which transforms during annealing to a very dense crystalline microstructure. This transformation results in film shrinkage and, because the film is constrained by the glass substrate, the film shrinkage produces a selected amount of tensile stress that compensates for the compressive stress of the silica thin film layers.
|
