Patent application number | Description | Published |
20110182107 | MEMRISTIVE DEVICE - A memristive routing device ( | 07-28-2011 |
20110188119 | DYNAMICALLY VARYING AN OPTICAL CHARACTERISTIC OF A LIGHT BEAM - An apparatus for dynamically varying an optical characteristic of a light beam includes an optical element configured to receive a beam of light. The optical element includes at least one sub-wavelength grating formed of a plurality of lines. The apparatus includes at least one actuator connected to at least one component of the optical element and a controller for controlling the at least one actuator to dynamically vary a characteristic of the beam of light that is at least one of emitted through and reflected from the optical element. | 08-04-2011 |
20110205718 | VARIABLY CONFIGURABLE COMPUTER BUSES - Various embodiments of the present invention are directed to computer buses that can be used to distribute data between components of various computer systems. In one aspect, a computer bus includes multiple opto-electronic engines disposed within a housing and multiple flexible connectors. Each flexible connector extends through an opening in the housing and is coupled at a first end to an opto-electronic engine and at a second to an electronic device. The flexible connectors enable the bus to be placed in different orientations and positions in order to optimize space and connectivity requirements or limitations. | 08-25-2011 |
20110221038 | Electrically Actuated Devices - An electrically actuated device comprises an active region ( | 09-15-2011 |
20110260135 | Method for Doping an Electrically Actuated Device - An electrically actuated device ( | 10-27-2011 |
20110261856 | VERTICAL-CAVITY SURFACE-EMITTING LASER - A VCSEL includes a grating layer configured with a non-periodic, sub-wavelength grating, in which the non-periodic, sub-wavelength grating includes at least one first section configured to have a relatively low reflection coefficient and at least one second section configured to have a relatively high reflection coefficient to cause light to be reflected in a predetermined, non-Gaussian, spatial mode across the sub-wavelength grating. The VCSEL also includes a reflective layer and a light emitting layer disposed between the grating layer and the reflector, in which the sub-wavelength grating and the reflector form a resonant cavity. | 10-27-2011 |
20110274438 | OPTICAL ENGINE FOR POINT-TO-POINT COMMUNICATIONS - An optical engine ( | 11-10-2011 |
20120027339 | OPTICAL BUS FOR OPTICAL SIGNAL BROADCASTING - An optical bus is described for optical signal broadcasting. The optical bus can include a substrate and input optical waveguides formed on the substrate. First and second sets of output optical waveguides can also be formed on the substrate. Optical power splitters on the substrate can have an input and multiple outputs. The optical power splitters can be optically coupled to an input optical waveguide and can split an input optical beam into multiple output optical beams. The optical bus can include a waveguide shuffle network formed on the substrate. The waveguide shuffle network can include intersecting optical waveguides and can optically couple outputs from each of the optical power splitters to the first set of output optical waveguides and optically couple different outputs from each of the optical power splitters to the second set of output optical waveguides. | 02-02-2012 |
20120027349 | LENS - A lens is described which includes a substrate having a first side and an opposite second side. A first guided mode resonance grating is supported by the first side of the substrate and a second guided mode resonance grating is supported by the second side of the substrate. The second guided mode resonance grating can be offset from the first guided mode resonance grating. The second guided mode resonance grating can shape and reflect a wave front of an incident optical beam within the substrate towards the first guided mode resonance grating. The first guided mode resonance grating can redirect the reflected incident optical beam out of the second side of the substrate. | 02-02-2012 |
20120027357 | OPTICAL FIBER CONNECTOR - An optical fiber connector is disclosed. The optical fiber connector comprises a form having a curved surface with a first end near the bottom surface of the form. The curved surface is perpendicular to the bottom surface of the form at the first end. A first plurality of active optical fibers are positioned along the curved surface of the form in a side-by side arrangement with the tips of each of the first plurality of optical fibers adjacent to the first end of the curved surface. The ends of each of the first plurality of active optical fibers have been striped down to cladding and the cladding of each optical fiber contacts the cladding of the adjacent optical fibers. An inner cover is attached to the form thereby capturing the first plurality of active optical fibers between the curved surface of the form and an inside curved surface in the inner cover. | 02-02-2012 |
20120033914 | ANGLED COUPLING FOR OPTICAL FIBERS - An angled coupling for optical fibers can comprise a body ( | 02-09-2012 |
20120093459 | OPTICAL CHANNEL TAP ASSEMBLY - An optical channel tap assembly comprises a first N by M waveguide array including a first set of optical channels to convey optical signals along a first set of conveyance paths. The optical channel tap assembly also comprises a second N by M waveguide array including a second set of optical channels to convey the optical signals along a second set of conveyance paths, the optical signals received from the first set of conveyance paths. Additionally, the optical channel tap assembly comprises a beam splitter, disposed between the first N by M waveguide array and the second N by M waveguide array, to divert a first portion of power from the optical signals away from the second N by M waveguide array while allowing a second portion of power from the optical signals to propagate into the second N by M waveguide array. | 04-19-2012 |
20120134638 | WAVEGUIDE SYSTEM AND METHODS - Waveguide apparatuses and methods are provided. A waveguide method ( | 05-31-2012 |
20120195564 | WAVEGUIDE ARRAYS - A waveguide array can comprise a base portion having a metalized inner surface, an outer surface, and a clean end surface. The inner surface can include a plurality of waveguide channels that are metalized. The clean end surface can be prepared by breaking the base portion along a groove positioned on the outer surface prior to breaking, where the groove is oriented to intersect the waveguide channels. A metalized cover portion is attached to the inner surface of the base portion to close the waveguide channels. | 08-02-2012 |
20120274559 | Diffusing light of a laser - Embodiments disclosed herein relate to diffusing light of a multi-mode laser. In one embodiment, the multi-mode laser projects a plurality of modes of light and a diffuser reflects the plurality of modes of light to output a single lobe of light. | 11-01-2012 |
20120314292 | OPTICAL DEVICE FORMED OF AN ARRAY OF SUB-WAVELENGTH GRATINGS - An optical device includes a substantially planar substrate and a lens array disposed on the substantially planar substrate. The lens array is formed of a plurality of distinct sub-wavelength gratings, in which the sub-wavelength gratings are selected to produce a desired phase change in beams of light that are at least one of reflected and refracted by the sub-wavelength gratings of the lens array. | 12-13-2012 |
20130064505 | AREA ARRAY WAVEGUIDE POWER SPLITTER - A method for constructing an area array waveguide power splitter includes preparing a reflective layer on a substrate and forming a core of an area array waveguide layer and alignment features for an optical fiber input and a plurality of optical fiber outputs atop the reflective layer, wherein the core of the area array waveguide layer and the alignment features are formed concurrently. The method also includes applying a reflective layer to the top and side surfaces of the core of the area array waveguide layer and exposing an input and exposing a plurality of outputs in the reflective layer. | 03-14-2013 |
20130071064 | DEVICE FOR CONVERTING SIGNAL - A device for converting and optionally processing an optical signal comprises an optical cable having an optical-electrical conversion device at one end, the optical-electrical conversion device to convert the optical signal to an electrical signal or an electrical signal into an optical signal; a electrical package to removably receive the optical-electrical conversion device and generate processed signal; and a general circuit board attached to the electrical package and operable to receive the processed signal. | 03-21-2013 |
20130183036 | OPTICAL POLARIZATION MULTIPLEXING USING LASER ARRAYS - An optical data system and method are disclosed. An optical data system includes an array of lasers that are modulated by the plurality of modulation signals to provide a plurality of pairs of orthogonally polarized optical data signals. The optical data system further includes an optical multiplexing system to combine each of the pairs of orthogonally polarized optical data signals to provide a plurality of dual-channel optical data signals. | 07-18-2013 |
20130195456 | OPTICAL MULTIPLEXING USING LASER ARRAYS - An optical data system and method are disclosed. The system can be an integrated optical data transmission system that includes an array of lasers that are modulated by a plurality of modulation signals to provide a plurality of sets of optical data signals. Each of the optical data signals in each of the plurality of sets can have a distinct wavelength. The system can also include a wavelength division multiplexing system to combine each of the plurality of sets of optical data signals to generate a plurality of multi-channel optical data signals that are transmitted via a respective plurality of optical transmission media. | 08-01-2013 |
20130216180 | OPTICAL INTERCONNECT FABRICS IMPLEMENTED WITH STAR COUPLERS - This disclosure is directed to scalable optical interconnect fabrics for distributing optical signals over a computer systems. In one aspect, an optical interconnect fabric includes a star coupler and a plurality of output optical fibers. Each output optical fiber is connected at a first end to the star coupler and is connected at a second end to a node of a plurality of nodes. The fabric also includes the input optical fiber connected at a first end to the star coupler and connected at a second end to a node of the plurality of nodes. The star coupler is to receive at least one optical signal via the input optical fiber, is to split each optical signal into a plurality of optical signals with approximately the same optical power, and is to output each optical signal into one of the output optical fibers. | 08-22-2013 |
20130266255 | PASSIVE OPTICAL ALIGNMENT - A system for passive optical alignment includes an through optical via formed through a substrate, an optical transmission medium secured to a first side of the substrate such that the optical transmission medium is aligned with the through optical via, and an optoelectronic component secured to a second side of the substrate such that the active region of said optoelectronic component is aligned with the through optical via. | 10-10-2013 |
20140212147 | OPTICAL TRANSMITTER AND RECEIVER CIRCUIT ARRANGEMENT - A system includes an optical transmitter package comprising an optical transmitter to generate optical transmission signals based on electrical transmission signals. The system also includes an optical receiver package comprising an optical receiver to generate electrical reception signals based on optical reception signals. The system further includes a printed circuit board (PCB) on which the optical transmitter package and the optical receiver package are mounted. The PCB includes a heat generating circuit component. The optical transmitter package can be mounted to the PCB to subjected to less heat from the heat generating circuit component than the optical receiver package. | 07-31-2014 |