Patent application number | Description | Published |
20080253727 | Optical Waveguide - An optical waveguide and method of making are disclosed. The method of making includes forming a layer on a substrate of a substantially optically transparent material. The layer includes an inner area and an outer area. A sufficient number of voids can be created in the inner area to form a first index of refraction. A plurality of the voids have a dimension that is less than a wavelength of the light beam. A sufficient number of voids can be created in the outer area to form a second index of refraction less than the first index. | 10-16-2008 |
20080317406 | Optical interconnect - An optical interconnect has a plurality of optical sources, a first lens configured to collimate optical beams from the plurality of optical sources, a second lens configured to refocus the optical beams, and a plurality of optical receivers configured to receive the refocused optical beams from the second lens. | 12-25-2008 |
20080317474 | Optical interconnect - An optical interconnect has a plurality of optical data sources, a plurality of optical data receivers, a diffractive optical element configured to diffract an optical beam from at least one alignment optical source to at least one sensor, and an aligning element configured to align optical beams from the optical data sources to said optical data receivers, according to readings from the sensor. | 12-25-2008 |
20090034985 | Optical interconnect - An optical interconnect includes a first circuit board having an optical source and an optical receiver; and a second circuit board having data source and an optical modulator optically coupled with the optical source and optical receiver, wherein the optical modulator is configured to encode data from the data source into an optical signal from the optical source. The optical receiver is configured to receive the optical signal from the optical modulator. A method of optical communication includes generating on a first circuit board an optical signal directed at a second circuit board; modulating the optical signal with data at the second circuit board; reflecting the optical signal to the first circuit board; and demodulating the optical signal to receive the data at the first circuit board. | 02-05-2009 |
20090190892 | Photonic Connection And Method For Enhancing Alignment Accuracy Thereof - A photonic connection includes a first fiber and a second fiber. The first fiber has a core with a first predetermined pattern defined on or in a facet thereof, and the second fiber has a core with a second predetermined pattern defined on or in a facet thereof. The second predetermined pattern is complementary to the first predetermined pattern such that the first fiber or the second fiber fits into another of the second fiber or the first fiber at a single orientation and position. | 07-30-2009 |
20090245718 | Optical Sensor And Method Employing Half-Core Hollow Optical Waveguide - An optical sensor, sensing system and method of sensing employ a half-core hollow optical waveguide adjacent to a surface of an optical waveguide layer of a substrate. The half-core hollow optical waveguide and the adjacent optical waveguide layer cooperatively provide both an optical path that confines and guides an optical signal and an internal hollow channel. The optical path and channel extend longitudinally along a hollow core of the half-core hollow optical waveguide. The system further includes an optical source at an input of the optical path and an optical detector at an output of the optical path. A spectroscopic interaction between an analyte material that is introduced into the channel and an optical signal propagating along the optical path determines a characteristic of the analyte material. | 10-01-2009 |
20090246425 | Systems And Methods For Auto-Aligning Members Bearing Correlated Patterns - A method of aligning first and second mating surfaces includes: generating a random or pseudo-random function; convolving the random or pseudo-random function with a spread function to produce a correlated function; forming a pattern of bi-polar material on the first mating surface based on a quantization of the correlated function; and forming a complementary pattern of the bi-polar material on the second mating surface. The complementary patterns exert a force on each other toward a desired alignment of the first and second mating surfaces. A system includes a first member having a first correlated pattern of material disposed on a first mating surface; and a second member having a second correlated pattern of material disposed on a second mating surface, wherein the second correlated pattern is complementary to the first correlated pattern. The first and second correlated patterns interact to facilitate a desired alignment of the first and second members. | 10-01-2009 |
20090273049 | WDM Signal Detector - A detector includes a light detecting layer and a grating structure. The light detecting layer, which can be a photodiode, has an optical mode that resonates in the light detecting layer, and the grating structure is positioned to interact with the optical mode. The grating structure further couples incident light having a resonant frequency into the optical mode, and causes destructive interference to prevent light having the resonant frequency from escaping the detecting layer. The light detecting layer can be made transparent to light having other frequencies, so that a stack of such detectors, each having a different resonant frequency, can be integrated into a WDM detector that is compact and efficient. | 11-05-2009 |
20100018747 | Conductive Nanowires For Electrical Interconnect - An electrical interconnect includes first and second electrical contacts to be electrically connected, each electrical contact having a plurality of electrically conductive nanowires extending outwardly from a respective electrical contact; and the nanowires of the first electrical contact configured to mesh with the nanowires of the second electrical contact such that an electrical connection is established between the first electrical contact and the second electrical contact. A method for interconnecting electrical contacts includes meshing a first array of electrically conductive nanowires extending from a first electrical contact with a second array of electrically conductive nanowires extending from a second electrical contact so as to establish an electrical connection between said first and second electrical contacts. | 01-28-2010 |
20100086272 | Metamaterial Inclusion Structure and Method - A metamaterial inclusion structure (MIS), a metamaterial and a method of producing an optical magnetic response employ interspersed plasmonic and dielectric materials. The MIS includes first petals of a plasmonic material and second petals of a dielectric material that alternate at a surface and along a periphery of the MIS. The MIS exhibits the magnetic resonance when illuminated by an optical signal at an optical wavelength. The optical signal has a magnetic field component that is parallel with an interface between the first petals and the second petals. The metamaterial includes a plurality of the MIS arranged in an array and provides an optical magnetic susceptibility at the optical wavelength. The method forms the MIS with the alternating petals and includes illuminating the MIS with the optical signal. | 04-08-2010 |
20100253940 | STRUCTURE FOR SURFACE ENHANCED RAMAN SPECTROSCOPY - A structure for surface enhanced Raman spectroscopy is disclosed herein. A substrate has a stack configured vertically thereon. The stack encompasses at least two metal layers and at least one dielectric layer therebetween. Each layer of the stack has a controlled thickness, and each of the at least two metal layers is configured to exhibit a predetermined characteristic of plasmonic resonance. | 10-07-2010 |
20100265552 | Dynamically reconfigurable negative index material crossbars with gain - Various embodiments of the present invention are directed to negative index material crossbars that can be electronically controlled and dynamically reconfigured to exhibit a variety of electromagnetic properties. In one aspect, a negative index material crossbar comprises a first layer of non-crossing nanowires, and a second layer of approximately parallel nanowires that overlay the nanowires in the first layer. Resonant elements at nanowire intersections, and a gain material incorporated in the crossbar such that transmitted electromagnetic radiation with wavelengths in a wavelength band of interest is enhanced when the crossbar is flood pumped with pump electromagnetic radiation. | 10-21-2010 |
20100266233 | CONTROLLABLE OPTICAL RING RESONATOR HAVING PERIODICALLY SPACED CONTROL ELECTRODES - A controllable optical ring resonator, a photonic system and a method of controlling an optical ring resonator employ control electrodes periodically spaced apart along a closed loop optical path of an optical waveguide. The controllable optical ring resonator includes the optical waveguide and a plurality of the periodically spaced control electrodes. The photonic system includes an input optical waveguide segment and the controllable optical ring resonator adjacent and optically coupled to the segment. The method includes providing the plurality of periodically spaced control electrodes, providing an optical signal within the optical path, and addressing one or more of the control electrodes to interact with the optical signal within the optical path. | 10-21-2010 |
20100275697 | PRESSURE SENSOR GRID - A pressure sensor grid can comprise a plurality of bottom wires, arranged substantially parallel to each other and overlaid by a plurality of top wires arranged substantially perpendicular to the bottom wires. Each intersection of the top and bottom wires includes a pressure sensor. The sensor comprises a switching junction situated between the bottom wire and the top wire and a conducting channel extending through the switching junction from the bottom wire to the top wire. Pressure applied to the top wire causes an increase in conductance between the bottom wire and the top wire. | 11-04-2010 |
20100277789 | Negative index material-based modulators and methods for fabricating the same - Various embodiments of the present invention are directed to external, electronically controllable, negative index material-based modulators. In one aspect, an external modulator comprises a negative index material in electronic communication with an electronic signal source. The negative index material receives an electronic signal encoding data from the electronic signal source and an unmodulated carrier wave from an electromagnetic radiation source. Magnitude variations in the electronic signal produce corresponding effective refractive index changes in the negative index material encoding the data in the amplitude and/or phase of the carrier wave to produce an electromagnetic signal. | 11-04-2010 |
20100309459 | ANGLE SENSOR, SYSTEM AND METHOD EMPLOYING GUIDED-MODE RESONANCE - An angle sensor, system and method employ a guided-mode resonance. The angle sensor includes a guided-mode resonance (GMR) grating and a resonance processor. The resonance processor determines an angle of incidence of a signal incident on the GMR grating. The resonance processor uses a guided-mode resonance response of the GMR grating to the signal to determine the angle of incidence. The angle sensing system includes the GMR grating, the resonance processor and further includes an optical source that produces the signal. The method includes providing a GMR grating, detecting a guided-mode resonance produced in the GMR grating when subjected to an incident signal, and determining an angle of incidence of the incident signal from one or both of a number of and a spectral distance between guided-mode resonances present in a response of the GMR grating to the incident signal. | 12-09-2010 |
20100321685 | TYPE SELECTIVE AND POLARIZATION SELECTIVE DEVICE FOR RAMAN SPECTROSCOPY - A type and polarization selective device for Raman spectroscopy includes a set of at least two antennas and a gap at their intersection. First antenna geometry is such that it is configured to resonate, for first or second (different from the first) polarization, at a predetermined stimulation frequency of a material for which Raman scattering is to be studied, or at a Stokes or anti-Stokes frequency corresponding with the material when excited at stimulation frequency. Second antenna geometry is such that it is configured to resonate, for the other of second or first polarization, at the Stokes frequency when the first antenna is configured to resonate at the stimulation or anti-Stokes frequency, or at the anti-Stokes frequency when the first antenna is configured to resonate at the stimulation or Stokes frequency, or at the stimulation frequency when the first antenna is configured to resonate at the Stokes or anti-Stokes frequency. | 12-23-2010 |
20110024714 | Nanoscale Three-Terminal Switching Device - A nanoscale three-terminal switching device has a bottom electrode, a top electrode, and a side electrode, each of which may be a nanowire. The top electrode extends at an angle with respect to the bottom electrode and has an end section going over and overlapping the bottom electrode. An active region is disposed between the top electrode and bottom electrode and contains a switching material. The side electrode is disposed opposite from the top electrode and in electrical contact with the active region. A self-aligned fabrication process may be used to automatically align the formation of the top and side electrodes with respect to the bottom electrode. | 02-03-2011 |
20110076810 | Three Dimensional Multilayer Circuit - A method for forming three-dimensional multilayer circuit includes forming an area distributed CMOS layer configured to selectively address a set of first vias and a set of second vias. A template is then aligned with the first set of vias and lower crossbar segments are created using the template. The template is then removed, rotated, and aligned with the set of second vias. Upper crossbar segments which attach to the second set of vias are then created. | 03-31-2011 |
20110122405 | GUIDED MODE RESONATOR BASED RAMAN ENHANCEMENT APPARATUS - A system for performing Raman spectroscopy comprises a waveguide layer configured with at least one array of features, the at least one array of features being configured to provide guided-mode resonance for at least one wavelength of electromagnetic radiation; and at least one fluid channel disposed in the waveguide layer. An analyte sensor comprises an electromagnetic radiation source configured to emit a range of wavelengths of electromagnetic radiation, the system for performing Raman spectroscopy, and at least one photodetector configured to detect Raman scattered light. | 05-26-2011 |
20110182107 | MEMRISTIVE DEVICE - A memristive routing device ( | 07-28-2011 |
20110186801 | Nanoscale Switching Device - A nanoscale switching device has an active region containing a switching material capable of carrying a species of dopants and transporting the dopants under an electrical held. The switching device has first, second and third electrodes with nanoscale widths. The active region is disposed between the first and second electrodes. A resistance modifier layer, which has a non-linear voltage-dependent resistance, is disposed between the second and third electrodes. | 08-04-2011 |
20110188033 | MOLECULE DETECTION USING RAMAN LIGHT DETECTION - An apparatus for detecting at least one molecule using Raman light detection includes a substrate for supporting a sample containing the at least one molecule, a laser source for emitting a laser beam to cause Raman light emission from the at least one molecule, a modulating element for modulating a spatial relationship between the laser beam and the substrate at an identified frequency to cause the Raman light to be emitted from the at least one molecule at the identified frequency, at least one detector for detecting the Raman light emitted from the at least one molecule, and a post-signal processing unit configured to process the detected Raman light emission at the identified frequency to detect the at least one molecule. | 08-04-2011 |
20110188034 | SURFACE ENHANCED RAMAN SPECTROSCOPY EMPLOYING VIBRATING NANORODS - A surface enhanced Raman spectroscopy (SERS) apparatus, system and method employ a plurality of nanorods configured to vibrate. The apparatus includes the nanorods having tips at free ends opposite an end attached to a substrate. The tips are configured to adsorb an analyte and to vibrate at a vibration frequency. The apparatus further includes a vibration source configured to vibrate the free ends of the nanorods at the vibration frequency in a back-and-forth motion. Vibration of the nanorods is configured to facilitate detection of a Raman scattering signal emitted by the analyte adsorbed on the nanorod tips. The system further includes a synchronous detector configured to receive the Raman signal and to be gated cooperatively with the vibration of the nanorods. The method includes inducing a vibration of the nanorods, illuminating the vibrating tips to produce a Raman signal, and detecting the Raman signal using the detector. | 08-04-2011 |
20110188035 | VIBRATING TIP SURFACE ENHANCED RAMAN SPECTROSCOPY - A vibrating tip surface enhanced Raman spectroscopy (SERS) apparatus, system and method employ a nano-needle configured to vibrate. The apparatus includes the nano-needle with a substantially sharp tip at a free end opposite an end attached to a substrate. The tip is configured to adsorb an analyte. The apparatus further includes a vibration source configured to provide an alternating current (AC) electric field that induces a vibration of the free end and the tip of the nano-needle. Vibration of the nano-needle under the influence of the AC electric field facilitates detection of a Raman scattering signal from the analyte adsorbed on the nano-needle tip. The system further includes a synchronous detector configured to be gated cooperatively with the vibration of the nano-needle. The method includes inducing the vibration, illuminating the vibrating tip to produce a Raman signal, and detecting the Raman signal using the detector. | 08-04-2011 |
20110188294 | Multiplexer/de-multiplexer Memristive Device - A multiplexing/de-multiplexing memristive device ( | 08-04-2011 |
20110221038 | Electrically Actuated Devices - An electrically actuated device comprises an active region ( | 09-15-2011 |
20110234296 | Multi-way Electrical Switch - Embodiments of the present invention include a family of multi-way switches that can be configured to output an input signal to any combination of n output signal lines. Certain embodiments of the present invention employ a memristive junction between the input signal and each output signal line, the state of which is configured by one or more control signal lines. The memristive junction between the input signal line and each output signal can be switched between a stable, low-conductance state and a high-conductance state. A wide variety of different types of multi-way switches may be fabricated according to various embodiments of the present invention. | 09-29-2011 |
20110240946 | Graphene Memristor Having Modulated Graphene Interlayer Conduction - A graphene memristor includes a first electrode, a second electrode electrically coupled to the first electrode, an active region interspersed between the first and second electrodes, a defective graphene structure that modulates a barrier height to migration of ions through the active region, fast diffusing ions that migrate under the influence an electric field to change a state of the graphene memristor, and a source that generates the electric field. | 10-06-2011 |
20110240947 | Defective Graphene-Based Memristor - A graphene-based memristor includes a first electrode, a defective graphene layer adjacent the first electrode, a memristive material that includes a number of ions adjacent the defective graphene layer, a second electrode adjacent the memristive material, and a voltage source that generates an electric field between the first and the second electrodes. Under the influence of the electric field, ions in the memristive material form an ion conducting channel between the second electrode and the defective graphene layer. | 10-06-2011 |
20110240951 | MEMRISTIVE DEVICE - A memristive device includes a first electrode and a second electrode crossing the first electrode at a non-zero angle. An active region is disposed between the first and second electrodes. The active region has defects therein. Graphene or graphite is disposed between the active region and the first electrode and/or between the active region and the second electrode. | 10-06-2011 |
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 |
20110260135 | Method for Doping an Electrically Actuated Device - An electrically actuated device ( | 10-27-2011 |
20110267606 | SURFACE-ENHANCED RAMAN SPECTROSCOPY DEVICE AND A MOLD FOR CREATING AND A METHOD FOR MAKING THE SAME - A surface-enhanced Raman spectroscopy device includes a substrate, and an ultraviolet cured resist disposed on the substrate. The ultraviolet cured resist has a pattern of cone-shaped protrusions, where each cone-shaped protrusion has a tip with a radius of curvature equal to or less than 10 nm. The ultraviolet cured resist is formed of a predetermined ratio of a photoinitiator, a cross-linking agent, and a siloxane based backbone chain. A Raman signal-enhancing material is disposed on each of the cone-shaped protrusions. | 11-03-2011 |
20110267607 | ENHANCING SIGNALS IN SURFACE ENHANCED RAMAN SPECTROSCOPY (SERS) - An integrated device for enhancing signals in Surface Enhanced Raman Spectroscopy (SERS). The integrated device comprising an array of nanostructures comprising a material, wherein the material is configured to allow light to pass through. The integrated device also comprising SERS active nanoparticles disposed on at least portion of the array of nanostructures and a mirror integrated below a base of the array of nanostructures. The mirror is configured to reflect light passing through the material into the array of nanostructures. | 11-03-2011 |
20110267608 | TUNABLE APPARATUS FOR PERFORMING SERS - A tunable apparatus for performing Surface Enhanced Raman Spectroscopy (SERS) includes a deformable layer and a plurality of SERS-active nanoparticles disposed at one or more locations on the deformable layer, wherein the one or more locations are configured to be illuminated with light of a pump wavelength to cause Raman excitation light to interact with the nanoparticles and produce enhanced Raman scattered light from molecules located in close proximity to the nanoparticles. In addition, a morphology of the deformable layer is configured to be controllably varied to modify an intensity of the Raman scattered light produced from the molecules. | 11-03-2011 |
20110267609 | APPARATUS FOR PERFORMING SERS - An apparatus for performing Surface Enhanced Raman Spectroscopy (SERS) includes a reflective layer positioned above the substrate, a plurality of tapered nanowires disposed above the reflective layer, each of the plurality of tapered nanowires having a tapered end directed away from the reflective layer. | 11-03-2011 |
20110267610 | COMPACT SENSOR SYSTEM - A compact sensor system comprising: an analysis cell configured for photon-matter interaction, where photons are received from a light source; and an integrated-optical spectral analyzer configured for identifying a set of frequencies, the integrated-optical spectral analyzer comprising: a waveguide coupled with the analysis cell, the waveguide configured for propagating a set of frequencies through the waveguide; one or more ring resonators coupled with the waveguide, the one or more ring resonators comprising a predetermined bandwidth and configured for capturing the set of frequencies corresponding to frequencies within the predetermined bandwidth; and one or more frequency detectors coupled with the one or more tunable ring resonators, the one or more frequency detectors configured for generating electrical signals that identify each of the set of frequencies. | 11-03-2011 |
20110273755 | DYNAMICALLY RECONFIGURABLE HOLOGRAMS - Various embodiments of the present invention relate to systems that can be used as holograms and can be electronically controlled and dynamically reconfigured to generate three-dimensional motion picture images. In one embodiment, a dynamically reconfigurable hologram ( | 11-10-2011 |
20110273756 | DYNAMICALLY RECONFIGURABLE HOLOGRAMS WITH CHALCOGENIDE INTERMEDIATE LAYERS - Various embodiments of the present invention relate to dynamically reconfigurable hologram comprising a phase-modulation layer and an intensity-control layer. The phase modulation layer comprises an electronically programmable erasable negative index material crossbar. The crossbar includes a first layer of approximately parallel nanowires ( | 11-10-2011 |
20110315902 | ANALYZER AND METHOD FOR SENSING USING THE SAME - An analyzer is disclosed herein. The analyzer encompasses a substrate having a surface with a plurality of distinct V-grooves formed therein. An input flow channel is configured to intersect and fluidly communicate with each of the plurality of distinct V-grooves at respective input points, and an output flow channel is configured to intersect and fluidly communicate with each of the plurality of distinct V-grooves at respective output points. | 12-29-2011 |
20120013902 | MULTI-WAVELENGTH RAMAN LIGHT DETECTION FOR DETECTING A SPECIES - An apparatus for detecting at least one species using Raman light detection includes at least one laser source for illuminating a sample containing the at least one species. The apparatus also includes a modulating element for modulating a spatial relationship between the sample and the light beams to cause relative positions of the sample and the light beams to be oscillated, in which Raman light at differing intensity levels are configured to be emitted from the at least one species based upon the different wavelengths of the light beams illuminating the sample. The apparatus also includes a Raman light detector and a post-signal processing unit configured to detect the at least one species. | 01-19-2012 |
20120026493 | GRATING FOR MULTIPLE DISCRETE WAVELENGTHS OF RAMAN SCATTERING - Systems and methods employ a layer having a pattern that provides multiple discrete guided mode resonances for respective couplings of separated wavelengths into the layer. Further, a structure including features shaped to enhance Raman scattering to produce light of the resonant wavelengths can be employed with the patterned layer. | 02-02-2012 |
20120027251 | DEVICE WITH MARKINGS FOR CONFIGURATION - A device including a network interface is marked for determination of the position or orientation of the device. In particular, the markings can include a pattern and proportions that enable determination of at least one of a position and an orientation of the device relative to a station using appearance of the markings as observed from the station. | 02-02-2012 |
20120074378 | MEMORY ELEMENT HAVING ELASTICALLY DEFORMABLE ACTIVE REGION - A memory element is provided that includes a first electrode, a second electrode, and an active region disposed between the first electrode and the second electrode, wherein at least a portion of the active region comprises an elastically deformable material, and wherein deformation of the elastically deformable material causes said memory element to change from a lower conductive state to a higher conductive state. A multilayer structure also is provided that includes a base and a multilayer circuit disposed above the base, where the multilayer circuit includes at least of the memory elements including the elastically deformable material. | 03-29-2012 |
20120081945 | MEMORY ARRAY WITH GRADED RESISTANCE LINES - A memory array with graded resistance lines includes a first set of lines intersecting a second set of lines. A line from one of the sets of lines includes a graded resistance along a length of the line. | 04-05-2012 |
20120092660 | APPARATUS FOR PERFORMING SERS - An apparatus for performing SERS includes a substrate and flexible nano-fingers, each of the nano-fingers having a first end attached to the substrate, a free second end, and a body portion extending between the first end and the second end, in which the nano-fingers are arranged in an array on the substrate. The apparatus also includes an active material layer disposed on each of the second ends of the plurality of nano-fingers, in which the nano-fingers are to be in a substantially collapsed state in which the active layers on at least two of the nano-fingers contact each other under dominant attractive forces between the plurality of nano-fingers and in which the active material layers are to repel each other when the active material layers are electrostatically charged. | 04-19-2012 |
20120105841 | APPARATUS FOR PERFORMING SERS - An apparatus for performing surface enhanced Raman spectroscopy (SERS) includes a substrate and a plurality of nano-pillars, each of the plurality of nano-pillars having a first end attached to the substrate, a second end located distally from the substrate, and a body portion extending between the first end and the second end, in which the plurality of nano-pillars are arranged in an array on the substrate, and in which each of the plurality of nano-pillars is formed of a polymer material that is functionalized to expand in the presence of a fluid to cause gaps between the plurality of nano-pillars to shrink when the fluid is supplied onto the nano-pillars. | 05-03-2012 |
20120107569 | PREVENTING ADHESION BETWEEN NANOSTRUCTURES - A device for Surface Enhanced Raman Scattering (SERS). The device includes a plurality of nanostructures protruding from a surface of a substrate, a SERS active metal disposed on a portion of said plurality of nanostructures, and a low friction film disposed over the plurality of nanostructures and the SERS active metal. The low friction film is to prevent adhesion between the plurality of nanostructures. | 05-03-2012 |
20120120714 | MEMORY RESISTOR HAVING MULTI-LAYER ELECTRODES - Methods and means related to memory resistors are provided. A memristor includes two multi-layer electrodes and an active material layer. One multi-layer electrode forms an Ohmic contact region with the active material layer. The other multi-layer electrode forms a Schottky barrier layer with the active material layer. The active material layer is subject to oxygen vacancy profile reconfiguration under the influence of an applied electric field. An electrical resistance of the memristor is thus adjustable by way of applied programming voltages and is non-volatile between programming events. | 05-17-2012 |
20120128370 | Optical Hetrodyne Devices - An optical heterodyne device includes an optical meta-material exhibiting non-linear behavior. The optical meta-material mixes an input signal and a local signal to produce a heterodyne signal. | 05-24-2012 |
20120138885 | ELECTRICAL CIRCUIT COMPONENT - An electrical circuit component includes a first electrode, a plurality of second electrodes and a negative differential resistance (NDR) material. The first electrode and the plurality of second electrodes are connected to the NDR material and the NDR material is to electrically connect the first electrode to one of the plurality of second electrodes when a sufficient voltage is applied between the first electrode and the one of the plurality of second electrodes through the NDR material. | 06-07-2012 |
20120154880 | OPTICAL MODULATORS - Various embodiments of the present invention are directed to external, electronically controllable modulators. In one embodiment, a modulating device ( | 06-21-2012 |
20120182550 | WAVEGUIDES CONFIGURED WITH ARRAYS OF FEATURES FOR PERFORMING RAMAN SPECTROSCOPY - Embodiments of the present invention are directed to systems for performing surface-enhanced Raman spectroscopy. In one embodiment, a system for performing Raman spectroscopy includes a waveguide layer (102,402,702,902) configured with at least one array of features, and a material (110,410,710,910) disposed on at least a portion of the features. Each array of features and the waveguide layer are configured to provide guided-mode resonance for at least one wavelength of electromagnetic radiation. The electromagnetic radiation produces enhanced Raman scattered light from analyte molecules located on or in proximity to the material. | 07-19-2012 |
20120188540 | RECONFIGURABLE SURFACE ENHANCED RAMAN SPECTROSCOPY APPARATUS, SYSTEM AND METHOD - A reconfigurable surface enhanced Raman spectroscopy (SERS) apparatus, system and method employ a stimulus responsive material to move nanorods of a plurality between inactive and active configurations. The apparatus includes the plurality of nanorods and the stimulus responsive material. The system further includes a Raman signal detector. The method of reconfigurable SERS includes providing the plurality of nanorods and exposing the stimulus responsive material to a stimulus. The exposure causes a change in one or more of a size, a shape and a volume of the stimulus responsive material that moves the nanorods between the inactive and active configurations. The active configuration facilitates one or both of production and detection of a Raman scattering signal emitted by the analyte. | 07-26-2012 |
20120192441 | PHYSICAL TEMPLATE FOR DEPLOYING AN EARTH-BASED SENSOR NETWORK - A physical template for deploying an earth-based sensor network. The physical template includes a physical mesh. The physical mesh is configurable as a surface-covering structure that includes a plurality of nodes. A node of the plurality of nodes is to position a sensor for deployment of the sensor within a specified distance of a location on a surface of the Earth. A sensor-network-deployment system including the physical template for deploying an earth-based sensor network, and a method for deploying an earth-based sensor network utilizing the physical template are also provided. | 08-02-2012 |
20120200851 | RAMAN SPECTROSCOPY LIGHT AMPLIFYING STRUCTURE - A light amplifying structure | 08-09-2012 |
20120236298 | TUNABLE APPARATUS FOR PERFORMING SERS - A tunable apparatus for performing Surface Enhanced Raman Spectroscopy (SERS) includes a deformable substrate and a plurality of SERS-active nanoparticles disposed at a plurality of locations on the deformable substrate. The plurality of SERS-active nanoparticles are to enhance Raman scattered light emission from an analyte molecule located in close proximity to the SERS-active nanoparticles. In addition, the deformable substrate is to be deformed to vary distances between the SERS-active nanoparticles, in which varying distances between the SERS-active nanoparticles varies enhancement of an intensity of Raman scattered light emission from the analyte molecule. | 09-20-2012 |
20120280282 | Three Dimensional Multilayer Circuit - A three dimensional multilayer circuit ( | 11-08-2012 |
20130021605 | APPARATUS HAVING NANO-FINGERS OF DIFFFERENT PHSYICAL CHARACTERISTICS - An apparatus includes a substrate and a plurality of nano-fingers attached at respective first ends to the substrate and freely movable along their lengths, in which a first set of the plurality of nano-fingers comprises a first physical characteristic, wherein a second set of the plurality of nano-fingers comprises a second physical characteristic, and wherein the first physical characteristic differs from the second physical characteristic. | 01-24-2013 |
20130027698 | SELF-ARRANGING, LUMINESCENCE-ENHANCEMENT DEVICE FOR SURFACE-ENHANCED LUMINESCENCE - A self-arranging, luminescence-enhancement device | 01-31-2013 |
20130027776 | CONTROLLING PHASE RESPONSE IN A SUB-WAVELENGTH GRATING LENS - A sub-wavelength grating device having controlled phase response includes a grating layer having line widths, line thicknesses, line periods, and line spacings selected to produce a first level of control in phase changes of different portions of a beam of light reflected from the grating layer. The device also includes a substrate affixed to the grating layer that produces a second level of control in phase changes of different portions of a beam of light reflected from the grating layer, the second level of control being accomplished abrupt stepping of the substrate in a horizontal dimension, ramping the substrate in a horizontal dimension, or changing the index of refraction in a horizontal dimension. | 01-31-2013 |
20130040862 | MULTI-PILLAR STRUCTURE FOR MOLECULAR ANALYSIS - A multi-pillar structure for molecular analysis is provided. The structure comprises at least two nanopoles, each nanopole attached at one end to a substrate and freely movable along its length. The opposite ends of the at least two nanopoles are each capable of movement toward each other to trap at least one analyte molecule at their opposite ends. Each nanopole is coated with a metal coating. An array of such multi-pillar structures is also provided. A method for preparing the multi-pillar structure is further provided. | 02-14-2013 |
20130044533 | MEMORY ARRAY WITH CO-PLANAR WAVEGUIDE BASED MEMORY ELEMENT SELECTION - A memory array with co-planar waveguide based memory selection includes a first set of parallel conductive lines placed perpendicular to a second set of parallel conductive lines, memory elements disposed at intersections between the first set of conductive lines and the second set of conductive lines, and selection circuitry to apply an reading electrical condition to a selected one of the conductive lines and to ground conductive lines adjacent to the selected conductive line to form a co-planar waveguide. | 02-21-2013 |
20130051121 | SWITCHABLE TWO-TERMINAL DEVICES WITH DIFFUSION/DRIFT SPECIES - Various embodiments of the present invention are directed to nanoscale electronic devices that provide nonvolatile memristive switching. In one aspect, a two-terminal device ( | 02-28-2013 |
20130107250 | FREE-STANDING STRUCTURES FOR MOLECULAR ANALYSIS | 05-02-2013 |
20130120748 | OPTICAL FIBER SURFACE ENHANCED RAMAN SPECTROSCOPY (SERS) PROBE - A surface enhanced Raman spectroscopy (SERS) probe apparatus and a method of SERS probing employ Raman-active surfaces of a plurality of nanoscale field concentrator (NFC) structures at a terminal end of an optical fiber. The SERS probe apparatus includes an optical fiber having an optical path and a terminal end that terminates the optical path. The SERS probe apparatus further includes a plurality of NFC structures and nanoparticles on surfaces of the plurality of NFC structures. First ends of the NFC structures are adjacent to the terminal end of optical fiber. The nanoparticles are Raman active to an analyte. | 05-16-2013 |
20130194570 | APPARATUS FOR PERFORMING SPECTROSCOPY - An apparatus for performing spectroscopy includes an optical waveguide comprising a fluidic channel to receive a fluid sample, in which the optical waveguide is to propagate lightwaves at a set of frequencies. The apparatus also includes a wavelength selective device coupled to the optical waveguide, in which the wavelength selective device comprises a predetermined bandwidth and is to capture frequencies of light within the predetermined bandwidth. The apparatus further includes a detector coupled to the wavelength selective device to generate signals that identify the frequencies captured by the wavelength selective device. | 08-01-2013 |
20130207069 | METAL-INSULATOR TRANSITION SWITCHING DEVICES - A metal-insulator transition switching device includes a first electrode and a second electrode. A channel region which includes a bulk metal-insulator transition material separates the first electrode and the second electrode. A method for forming a metal-insulator transition switching device includes depositing a layer of bulk metal-insulator transition material in between a first electrode and a second electrode to form a channel region and forming a gate electrode operatively connected to the channel region. | 08-15-2013 |
20130271442 | FLAT-PANEL DISPLAY INCLUDING MEMRISTIVE DEVICES - A flat-panel display system and method are disclosed. The system includes a display controller to generate image data. The system also includes a plurality of memristive pixel cells arranged in a plurality of rows and in a plurality of columns. Each of the plurality of memristive pixel cells includes a memristive device to control a respective pixel associated with the flat panel display based on the image data. | 10-17-2013 |
20140199778 | DEVICES TO DETECT A SUBSTANCE AND METHODS OF PRODUCING SUCH A DEVICE - Devices to detect a substance and methods of producing such a device are disclosed. An example device to detect a substance includes a housing defining an externally accessible chamber and a seal to enclose at least a portion of the chamber. The example device also includes a substrate includes nanoparticles positioned within the chamber. The nanoparticles to react to the substance when exposed thereto. The example device also includes a non-analytic solution within the chamber to protect the nanoparticles from premature exposure. | 07-17-2014 |
20140347661 | APPARATUS FOR FILTERING SPECIES - An apparatus for filtering species in a fluid includes a body having a first side and a second side, a first set of nano-fingers positioned on the body near the first side, a second set of nano-fingers positioned on the body closer to the second side than the first set of nano-fingers, wherein the nano-fingers in the second set of nano-fingers are arranged on the body at a relatively more densely than the nano-fingers in the first set of nano-fingers, and a cover positioned over the first set of nano-fingers and the second set of nano-fingers to form a channel with the body within which the first and second sets of nano-fingers are positioned. | 11-27-2014 |
20150065390 | INTEGRATED SENSORS - Examples of integrated sensors are disclosed herein. An example of an integrated sensor includes a substrate and a sensing member formed on a surface of the substrate. The sensing member includes collapsible signal amplifying structures and an area surrounding the collapsible signal amplifying structures that enables self-positioning of droplets exposed thereto toward the collapsible signal amplifying structures. | 03-05-2015 |