Patent application number | Description | Published |
20140204466 | OPTICAL ELEMENT STRUCTURE AND OPTICAL ELEMENT FABRICATING PROCESS FOR THE SAME - An optical element structure and a fabricating process for the same are provided. The optical element fabricating process includes providing a substrate forming thereon a protrusion; and forming an over coating layer over the protrusion and the substrate by a deposition scheme to form an optical element. | 07-24-2014 |
20140212627 | SELF-ALIGNMENT DUE TO WETTABILITY DIFFERENCE OF AN INTERFACE - Some embodiments relate to a method of processing a workpiece. The workpiece includes a first surface region having a first wettability coefficient, and a second surface region having a second wettability coefficient that differs from the first wettability coefficient. A liquid, which corresponds to an optical structure, is dispensed on the first and second surface regions of the workpiece, wherein the liquid self-aligns to the second surface region due to the difference between the first and second wettability coefficients. The self-aligned liquid is hardened to form the optical structure. | 07-31-2014 |
20140355929 | WAVEGUIDE STRUCTURE AND METHOD FOR FABRICATING THE SAME - Embodiments of forming a waveguide structure are provided. The waveguide structure includes a substrate, and the substrate has an interconnection region and a waveguide region. The waveguide structure also includes a trench formed in the substrate, and the trench has a sloping sidewall surface and a substantially flat bottom. The waveguide structure further includes a bottom cladding layer formed on the substrate, and the bottom cladding layer extends from the interconnection region to the waveguide region, and the bottom cladding layer acts as an insulating layer in the interconnection region. The waveguide structure further includes a metal layer formed on the bottom cladding layer on the sloping sidewall surface. | 12-04-2014 |
20140376858 | Self-Alignment Due to Wettability Difference of an Interface - Some embodiments relate to a method of processing a workpiece. The workpiece includes a first surface region having a first wettability coefficient, and a second surface region having a second wettability coefficient that differs from the first wettability coefficient. A liquid, which corresponds to an optical structure, is dispensed on the first and second surface regions of the workpiece, wherein the liquid self-aligns to the second surface region due to the difference between the first and second wettability coefficients. The self-aligned liquid is hardened to form the optical structure. | 12-25-2014 |
20150016793 | Waveguide Structure - A waveguide structure includes a bottom dielectric layer, a core layer disposed over the bottom dielectric layer, an etch stop layer disposed over the core layer, and a cladding layer or a buffer layer disposed over the etch stop layer. The waveguide structure is configured to guide a light signal through different geography, such as straight, taper, turning, grating and tight coupling sections. | 01-15-2015 |
20150036970 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING - A semiconductor device includes a first chip, a dielectric layer over the first chip, and a second chip over the dielectric layer. A conductive layer is embedded in the dielectric layer and is electrically coupled to the first chip and the second chip. The second chip includes an optical component. The first chip and the second chip are arranged on opposite sides of the dielectric layer in a thickness direction of the dielectric layer. | 02-05-2015 |
20150036991 | METHOD OF MAKING A METAL GRATING IN A WAVEGUIDE AND DEVICE FORMED - A method of making a grating in a waveguide includes forming a waveguide material over a substrate, the waveguide material having a thickness less than or equal to about 100 nanometers (nm). The method further includes forming a photoresist over the waveguide material and patterning the photoresist. The method further includes forming a first set of openings in the waveguide material through the patterned substrate and filling the first set of openings with a metal material. | 02-05-2015 |
20150061126 | MANUFACTURE INCLUDING SUBSTRATE AND PACKAGE STRUCTURE OF OPTICAL CHIP - A manufacture includes a package structure, a first substrate, and a conductive member of a same material. The package structure includes a chip comprising a conductive pad, a conductive structure over the chip, and a passivation layer over the conductive structure. The passivation layer has an opening defined therein, and the opening exposes a portion of a planar portion of the conductive structure. The first substrate includes a first surface defining a first reference plane and a second surface defining a second reference plane. The conductive member extends across the first reference plane and the second reference plane and into the opening. The conductive member is electrically coupled to the exposed portion of the planar portion. | 03-05-2015 |
20150061137 | PACKAGE AND METHOD FOR INTEGRATION OF HETEROGENEOUS INTEGRATED CIRCUITS - A package for holding a plurality of heterogeneous integrated circuits includes a first chip having a first conductive pad and a first substrate including a first semiconductor, and a second chip having a second conductive pad and a second substrate including a second semiconductor. The second semiconductor is different from the first semiconductor. The package also includes a molding structure in which the first chip and the second chip are embedded, a conductive structure over the first chip and conductively coupled to the first conductive pad and over the second chip and conductively coupled to the second conductive pad, and a passivation layer over the conductive structure. The passivation layer comprises an opening defined therein which exposes a portion of the second chip. | 03-05-2015 |