Patent application number | Description | Published |
20100094842 | Quantum-based oblivious transfer and private data sampling protocols and systems for performing the same - Various embodiments of the present invention relate to oblivious transfer protocols and to system for performing oblivious transfer. Embodiments of the present invention include a private data sampling protocol that is designed to balance the competing privacy interest of a database user and a database owner. Protocol embodiments enable the database user to obtain a fixed size random sample of the available data held by the database owner without the database owner learning which bits of data were accessed. | 04-15-2010 |
20110163336 | LIGHT EMITTING DIODE DEVICE - A light emitting diode device is described which includes at least one planar non-periodic high-index-contrast grating. The light emitting diode device includes a cavity formed between a reflective optical element and a transmissive optical element. One or both of the optical elements can be a planar non-periodic high-index-contrast grating. The transmissive optical element can be a collimating lens used to collimate incident beams of light while the reflective optical element can be a parabolic reflector used to reflect incident beams of light along a direction opposite to an incidence direction. A light emitter can be disposed within the cavity and can emit beams of light. | 07-07-2011 |
20110182107 | MEMRISTIVE DEVICE - A memristive routing device ( | 07-28-2011 |
20110249594 | DETERMINING NODE LOCATION IN A WIRELESS NETWORK - Transmitting nodes broadcast chirped signals on a wireless network. The transmitting nodes are time-synchronized with each other and location of the transmitting nodes is known. A receiver node detects beat frequencies created by pairs of chirped signals from different pairs of transmitting nodes. Time delay differences between chirped signals in respective beat frequency pairs are determined. The receiver node's location is determined in view of the time delay differences. | 10-13-2011 |
20110280579 | ENERGY-EFFICIENT AND FAULT-TOLERANT RESONATOR-BASED MODULATION AND WAVELENGTH DIVISION MULTIPLEXING SYSTEMS - Systems and methods are provided for modulating, channels in dense wavelength division multiplexing (“DWDM”) systems. In one aspect, a modulation and wavelength division multiplexing system includes a channel source and a waveguide tree structure disposed on a substrate. The tree structure includes waveguides branching from a root waveguide. The waveguides include two or more terminus waveguides coupled to the channel source. The system also includes one or more modulator arrays disposed on the substrate. Each modulator array is optically coupled to one of the two or more terminus waveguides and is configured to modulate channels injected into a terminus waveguide from the channel source to produce corresponding optical signals that propagate from the terminus waveguide along one or more of the waveguides to the root waveguide. | 11-17-2011 |
20120027348 | Optical Apparatus for Forming a Tunable Cavity - An optical apparatus includes an optical fiber formed of a core surrounded by cladding, in which the optical fiber includes an end portion. In addition, an optical layer composed of a material having a relatively high refractive index is positioned on the end portion, in which the optical layer includes a non-periodic sub-wavelength grating positioned in optical communication with the core. | 02-02-2012 |
20130100528 | PLANAR REFLECTIVE DEVICES - Planar reflective devices that operate as reflective blazed diffraction gratings are disclosed. In one aspect, a reflective device includes a substrate with a planar surface, and a planar, high-contrast, sub-wavelength grating disposed on the surface. The grating is divided into a number of regions that each reflect incident light of a particular wavelength and with a particular angle of incidence into a single diffraction order and associated diffraction angle. | 04-25-2013 |
20150063750 | OPTICAL CONNECTORS - An optical connector includes a first optical fiber and a second optical fiber. A first planar lens is positioned to operate on light exiting the first optical fiber to create a predetermined change in a wave front of the light. A second planar lens is positioned to accept the light from the first planar lens, the second planar lens focusing the light onto the second optical fiber. The first planar lens and second planar lens each include a regularly spaced array of posts with periodically varying diameters. | 03-05-2015 |