Abstract: There is provided a method for fabricating a vertically tapered spot-size converter on a substrate, comprising: growing a waveguide core on the substrate; coating the waveguide core with a photoresist layer; placing a photomask having patterns at a negative focus offset point with respect to the photoresist layer, the patterns being defined by openings in the photomask, each opening having a cross-section comprising a region of constant width and at least one region of non-constant width, the non-constant width reducing in a direction extending away from the region of constant width; transferring the patterns of the photomask to the photoresist layer; providing the waveguide core with a vertically tapered profile, the vertically tapered profile being provided by the patterns of the photomask; growing a cladding layer over the waveguide core; and patterning and etching the cladding layer and the waveguide core, thereby defining the vertically tapered spot-size converter.

Abstract: The present invention relates to a sol-gel deposition/heat treatment process, which consistently produces polycrystalline direct bandgap semiconductor, e.g. ZnO, thin films exhibiting a photo luminescent (PL) spectrum at room temperature that is dominated by a single peak, e.g. in the ultraviolet part of the spectrum, in which the PL intensity of the bandgap emission is more than approximately 40 times greater than any deep-level defect emission peak or band. The present invention incorporates such direct bandgap semiconductor, e.g. ZnO, polycrystalline thin films produced by the method of the present invention into electro-luminescent devices that exhibit similarly high ratios of bandgap/deep-level defect emission intensity.