Patent application number | Description | Published |
20130210214 | VERTICAL INTEGRATION OF CMOS ELECTRONICS WITH PHOTONIC DEVICES - A method of fabricating a composite semiconductor structure includes providing an SOI substrate including a plurality of silicon-based devices, providing a compound semiconductor substrate including a plurality of photonic devices, and dicing the compound semiconductor substrate to provide a plurality of photonic dies. Each die includes one or more of the plurality of photonics devices. The method also includes providing an assembly substrate having a base layer and a device layer including a plurality of CMOS devices, mounting the plurality of photonic dies on predetermined portions of the assembly substrate, and aligning the SOI substrate and the assembly substrate. The method further includes joining the SOI substrate and the assembly substrate to form a composite substrate structure and removing at least the base layer of the assembly substrate from the composite substrate structure. | 08-15-2013 |
20130230285 | OPTICAL FIBER CONNECTION ARCHITECTURE - An optical fiber package includes a housing having a plurality of walls. One of the walls includes a via passing therethrough. The optical fiber package also includes an optical fiber mounted in the housing and extending through at least a portion of the via and a connector. The connector has a first portion mounted in the via. The optical fiber passes through the first portion. The connector also has a second portion extending outside the housing and including a collar operable to receive a male protrusion of an external fiber. | 09-05-2013 |
20130235890 | TUNABLE HYBRID LASER WITH CARRIER-INDUCED PHASE CONTROL - A tunable laser includes a substrate comprising a silicon material, a gain medium coupled to the substrate, wherein the gain medium includes a compound semiconductor material, and a waveguide disposed in the substrate and optically coupled to the gain medium. The tunable laser also includes a first wavelength selective element characterized by a first reflectance spectrum and disposed in the substrate and a carrier-based phase modulator optically coupled to the first wavelength selective element. The tunable laser further includes a second wavelength selective element characterized by a second reflectance spectrum and disposed in the substrate, an optical coupler disposed in the substrate and optically coupled to the first wavelength selective element, the second wavelength selective element, and the waveguide, and an output mirror. | 09-12-2013 |
20130243362 | TUNABLE REFLECTORS BASED ON MULTI-CAVITY INTERFERENCE - A reflective structure includes an input/output port and an optical splitter coupled to the input/output port. The optical splitter has a first branch and a second branch. The reflective structure also includes a first resonant cavity optically coupled to the first branch of the optical splitter. The first resonant cavity comprises a first set of reflectors and a first waveguide region disposed between the first set of reflectors. The reflective structures further includes a second resonant cavity optically coupled to the second branch of the optical splitter. The second resonant cavity comprises a second set of reflectors and a second waveguide region disposed between the second set of reflectors. | 09-19-2013 |
20130301975 | HYBRID OPTICAL MODULATOR - An optical modulator includes an input port, a first waveguide region comprising silicon and optically coupled to the input port, and a waveguide splitter optically coupled to the first waveguide region and having a first output and a second output. The optical modulator also includes a first phase adjustment section optically coupled to the first output and comprising a first III-V diode and a second phase adjustment section optically coupled to the second output and comprising a second III-V diode. The optical modulator further includes a waveguide coupler optically coupled to the first phase adjustment section and the second phase adjustment section, a second waveguide region comprising silicon and optically coupled to the waveguide coupler, and an output port optically coupled to the second waveguide region. | 11-14-2013 |
20140037286 | METHOD AND SYSTEM FOR THE MONOLITHIC INTEGRATION OF CIRCUITS FOR MONITORING AND CONTROL OF RF SIGNALS - A method of operating a BPSK modulator includes receiving an RF signal at the BPSK modulator and splitting the RF signal into a first portion and a second portion that is inverted with respect to the first portion. The method also includes receiving the first portion at a first arm of the BPSK modulator, receiving the second portion at a second arm of the BPSK modulator, applying a first tone to the first arm of the BPSK modulator, and applying a second tone to the second arm of the BPSK modulator. The method further includes measuring a power associated with an output of the BPSK modulator and adjusting a phase applied to at least one of the first arm of the BPSK modulator or the second arm of the BPSK modulator in response to the measured power. | 02-06-2014 |
20140112669 | INTEGRATED OPTICAL NETWORK UNIT - An optical network unit includes a transmit/receive port and a silicon waveguide optically coupled to the transmit/receive port. The optical network unit also includes a tunable filter coupled to the silicon waveguide and providing a first output for a first frequency band and a second output for a second frequency band. The optical network unit further includes a polarization diverse receiver coupled to the tunable filter and a laser coupled to the tunable filter. | 04-24-2014 |
20140319656 | METHOD AND SYSTEM FOR HEIGHT REGISTRATION DURING CHIP BONDING - A method of fabricating a composite semiconductor structure is provided. Pedestals are formed in a recess of a first substrate. A second substrate is then placed within the recess in contact with the pedestals. The pedestals have a predetermined height so that a device layer within the second substrate aligns with a waveguide of the first substrate, where the waveguide extends from an inner wall of the recess. | 10-30-2014 |