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102 results about "Photonic sensor" patented technology

Photonic Sensors focuses on experimental contributions related to novel principles, and structures or materials for photonic sensors.

Penlight and touch screen data input system and method for flat panel displays

System, device, and method for receiving or sensing touch or light input to an emissive display such as to a OLED display using the same or different sensors as are used to sense and maintain a pixel luminance. Penlight and touch screen data input system and method for display. A sidelight illuminated display and touch panel input device. Method and device for reading display pixel emission and ambient luminance levels. Emissive display having sensing for luminance stabilization and user light or touch screen input. Method and device for emissive display using shielded or partially shielded sensors. Emissive pixel display device characterized in that photon sensors are disposed within pixels and operated to sense photons emitted by emitter within pixel and ambient photons emitted by sources outside pixel, sensed internally emitted photons being for luminance feedback control and sensed ambient photons being used to detect external light source or sources.
Owner:INTEGRATED DEVICE TECH INC

Method and device for reading display pixel emission and ambient luminance levels

System, device, and method for receiving or sensing touch or light input to an emissive display such as to a OLED display using the same or different sensors as are used to sense and maintain a pixel luminance. Penlight and touch screen data input system and method for display. A sidelight illuminated display and touch panel input device. Method and device for reading display pixel emission and ambient luminance levels. Emissive display having sensing for luminance stabilization and user light or touch screen input. Method and device for emissive display using shielded or partially shielded sensors. Emissive pixel display device characterized in that photon sensors are disposed within pixels and operated to sense photons emitted by emitter within pixel and ambient photons emitted by sources outside pixel, sensed internally emitted photons being for luminance feedback control and sensed ambient photons being used to detect external light source or sources.
Owner:LEADIS TECH

Time-of-flight based imaging system using a display as illumination source

The present invention concerns a time-of-flight based imaging system comprising a photon emitter used as an illumination source; a photon sensor (6); an electronic system for delivering a signal depending on the reception time of photons by said photon detector, characterized in that an electronic display (2) is used as said photonic source.
Owner:ECOLE POLYTECHNIQUE FEDERALE DE LAUSANNE (EPFL)

Emissive display device having sensing for luminance stabilization and user light or touch screen input

System, device, and method for receiving or sensing touch or light input to an emissive display such as to a OLED display using the same or different sensors as are used to sense and maintain a pixel luminance. Penlight and touch screen data input system and method for display. A sidelight illuminated display and touch panel input device. Method and device for reading display pixel emission and ambient luminance levels. Emissive display having sensing for luminance stabilization and user light or touch screen input. Method and device for emissive display using shielded or partially shielded sensors. Emissive pixel display device characterized in that photon sensors are disposed within pixels and operated to sense photons emitted by emitter within pixel and ambient photons emitted by sources outside pixel, sensed internally emitted photons being for luminance feedback control and sensed ambient photons being used to detect external light source or sources.
Owner:LEADIS TECH

Ultra-remote distributed fiber raman and brillouin photons sensor

The invention discloses super-far distributed fiber Raman and Brillouin photon sensors; by using the stimulated Raman scattering effect of fiber, the self Raman scattering effect of fiber, the Brillouin scattering effect of fiber and the light time-field reflection principle, distributed fiber Raman photon temperature sensors, distributed fiber Brillouin photon strain sensors and distributed fiber Raman amplifier are integrated together. Fiber consumption is overcome by using the gain of amplifier, and strengths of self Raman scattering light and Brillouin scattering light in fiber is enhanced, the signal to noise ratio of the system of distributed fiber Raman photon sensor and distributed fiber Brillouin photon strain sensor is enhanced, meanwhile, the transmission distances of distributed fiber Raman photon sensor and distributed fiber Brillouin photon strain sensor are increased, finally, the temperature and stress measuring accuracy is enhanced.
Owner:WEIHAI BEIYANG PHOTOELECTRIC INFORMATION TECH

Semiconductor X-ray photocathodes devices

An energy dispersive x-ray and gamma-ray photon counter is described. The counter uses a photon sensor which incorporates a unique photocathode called Advanced Semiconductor Emitter Technology for X-rays (ASET-X) as its critical element for converting the detected photons to electrons which are emitted into a vacuum. The electrons are multiplied by accelerations and collisions creating a signal larger than the sensor noise and thus allowing the photon to be energy resolved very accurately, to within ionization statistics. Because the signal is already above the sensor noise it does not have to be noise filtered therefore allowing high-speed counting. The photon sensor can also be used as a device to visualize and image gamma-ray and x-ray sources.
Owner:ADVANCED SCI CONCEPTS

Method and device for flat panel emissive display using shielded or partially shielded sensors to detect user screen inputs

System, device, and method for receiving or sensing touch or light input to an emissive display such as to a OLED display using the same or different sensors as are used to sense and maintain a pixel luminance. Penlight and touch screen data input system and method for display. A sidelight illuminated display and touch panel input device. Method and device for reading display pixel emission and ambient luminance levels. Emissive display having sensing for luminance stabilization and user light or touch screen input. Method and device for emissive display using shielded or partially shielded sensors. Emissive pixel display device characterized in that photon sensors are disposed within pixels and operated to sense photons emitted by emitter within pixel and ambient photons emitted by sources outside pixel, sensed internally emitted photons being for luminance feedback control and sensed ambient photons being used to detect external light source or sources.
Owner:LEADIS TECH

Time resolved non-invasive diagnostics system

A system for probe-less non-invasive detection of electrical signals from integrated circuit devices is disclosed. The system includes an illumination source, collection optics, imaging optics, and a photon sensor. In a navigation mode, the light source is activated and the imaging optics is used to identify the target area on the chip and appropriately position the collection optics. Once the collection optics is appropriately positioned, the light source is deactivated and the photon sensor is used to detect photons emitted from the chip. No mention of cooling (active device measurement capability) and advanced optics to detect the features (SIL).
Owner:DCG SYST

Thermal microphotonic sensor and sensor array

A thermal microphotonic sensor is disclosed for detecting infrared radiation using heat generated by the infrared radiation to shift the resonant frequency of an optical resonator (e.g. a ring resonator) to which the heat is coupled. The shift in the resonant frequency can be determined from light in an optical waveguide which is evanescently coupled to the optical resonator. An infrared absorber can be provided on the optical waveguide either as a coating or as a plate to aid in absorption of the infrared radiation. In some cases, a vertical resonant cavity can be formed about the infrared absorber to further increase the absorption of the infrared radiation. The sensor can be formed as a single device, or as an array for imaging the infrared radiation.
Owner:NAT TECH & ENG SOLUTIONS OF SANDIA LLC +1

Photonic sensor particles and fabrication methods

The invention is related to optical particles (10), use of optical particles in sensing applications, and methods of fabricating optical particles that can target a desired analyte. The invention is also related to the self assembly of individual optical particles. An advantage of the invention is that it includes self-assembling individual photonic crystal sensors onto a target. In an embodiment of the invention, a processed sensor structure having two generally opposing surfaces is provided, wherein each of the opposing surfaces have different surface affinities, with a first optical structure formed on one of the opposing surfaces, and a second optical structure formed on the other of the opposing surfaces. The chemically and optically asymmetric opposing surfaces will spontaneously align at an organic liquid / water interface. Changes in the optical response of at least one of the opposing surfaces indicate the presence of a particular analyte for sensing applications.
Owner:RGT UNIV OF CALIFORNIA

Sidelight illuminated flat panel display and touch panel input device

System, device, and method for receiving or sensing touch or light input to an emissive display such as to a OLED display using the same or different sensors as are used to sense and maintain a pixel luminance. Penlight and touch screen data input system and method for display. A sidelight illuminated display and touch panel input device. Method and device for reading display pixel emission and ambient luminance levels. Emissive display having sensing for luminance stabilization and user light or touch screen input. Method and device for emissive display using shielded or partially shielded sensors. Emissive pixel display device characterized in that photon sensors are disposed within pixels and operated to sense photons emitted by emitter within pixel and ambient photons emitted by sources outside pixel, sensed internally emitted photons being for luminance feedback control and sensed ambient photons being used to detect external light source or sources.
Owner:LEADIS TECH

Time resolved non-invasive diagnostics system

A system for probe-less non-invasive detection of electrical signals from integrated circuit devices is disclosed. The system includes an illumination source, collection optics, imaging optics, and a photon sensor. In a navigation mode, the light source is activated and the imaging optics is used to identify the target area on the chip and appropriately position the collection optics. Once the collection optics is appropriately positioned, the light source is deactivated and the photon sensor is used to detect photons emitted from the chip. No mention of cooling (active device measurement capability) and advanced optics to detect the features (SIL).
Owner:DCG SYST

Time-of-flight based imaging system using a display as illumination source

The present invention concerns a time-of-flight based imaging system having a photon emitter used as an illumination source, a photon sensor, and an electronic system for delivering a signal depending on the reception time of photons by said photon detector. The electronic display is used as the photonic source.
Owner:ECOLE POLYTECHNIQUE FEDERALE DE LAUSANNE (EPFL)

Solid state back-illuminated photon sensor

A backside-illuminated image sensor is disclosed having improved quantum efficiency (QE) in the near infrared wavelengths (NIR: 750-1100 nm) with minimal optical interference fringes produced by multiple reflected rays within the photosensitive Si region of the sensor, which may be a charge-coupled device, a complementary metal oxide sensor or an electron-multiplication sensor. The invention comprises a fringe suppression layer applied to the backside surface of the photosensitive Si region of a detector (Si substrate) whereby the fringe suppression layer functions in concert with the Si substrate to reduce the occurrence of interference fringes in the NIR while maintaining a high QE over a broad range of wavelengths (300-1100 nm). The combination of a fringe suppression layer applied to a Si substrate provides a new class of back illuminated solid state detectors for imaging.
Owner:TELEDYNE DIGITAL IMAGING US INC

Target Substance Sensor and Method Thereof Using a Photonic Crystal

A highly sensitive and compactible target substance sensor for detection of the target substance using a photonic crystal and a method thereof are provided.The sensor of the present invention includes an electromagnetic wave source of supplying an electromagnetic wave, a photonic sensor element, and a detector. The photonic sensor element has photonic crystalline structure and is configured to include a sensor waveguide for introducing the electromagnetic wave, and a sensing resonator electromagnetically coupled to the sensor waveguide for resonating the electromagnetic wave at specific wavelength. The sensing resonator is exposed to an atmosphere including the target substance so as to vary a characteristic of the electromagnetic wave emitted from the sensing resonator. The detector is configured to receive the electromagnetic wave emitted from the sensing resonator to recognize an intensity variation of the electromagnetic wave and issue a signal indicative of a characteristic of the target substance.
Owner:PANASONIC CORP

Method and device for optics based quantum random number generation

The invention provides a method and a device for optics based quantum random number generation. A method and device for generating random numbers based on an optical process of quantum nature. According to one exemplary aspect, the method includes randomly emitting photons from a light source and absorbing the emitted photons by a photon sensor having a plurality of pixels. Furthermore, respective minimum entropy levels can be calculated for each of the pixels of the photon sensor and a randomness extractor can be associated with each of pixels based on the calculated minimum entropy level of that pixel. After this calibration, the method and device generates a number of high-entropy bits used for generating a random number.
Owner:ID量子技术公司

Photonic sensor particles and fabrication methods

The invention is related to optical particles (10), use of optical particles in sensing applications, and methods of fabricating optical particles that can target a desired analyte. The invention is also related to the self assembly of individual optical particles. An advantage of the invention is that it includes self-assembling individual photonic crystal sensors onto a target. In an embodiment of the invention, a processed sensor structure having two generally opposing surfaces is provided, wherein each of the opposing surfaces have different surface affinities, with a first optical structure formed on one of the opposing surfaces, and a second optical structure formed on the other of the opposing surfaces. The chemically and optically asymmetric opposing surfaces will spontaneously align at an organic liquid / water interface. Changes in the optical response of at least one of the opposing surfaces indicate the presence of a particular analyte for sensing applications.
Owner:RGT UNIV OF CALIFORNIA

Quantum true random number generator

A true random number generator including a light source configured to produce randomly distributed photons, a plurality of detection channels configured to receive the randomly distributed photons produced by the light source, each detection channel including a photon sensor configured to detect a receipt of at least one photon during successive integration time-periods and generate an output signal by assigning a value for each integration time-period based on whether at least one photon was received during each integration time-period, a signal conditioning unit configured to condition the output signal of each of the plurality of detection channels and generate a conditioned output signal for each of the plurality of detection channels, and a signal processing unit configured to combine the conditioned output signals and generate a true random number based on the combination of the conditioned output signals.
Owner:THE RES FOUND OF STATE UNIV OF NEW YORK

Contactless user interface

The invention relates to a user interface device (10) comprising a matrix of photon sensors (12), adapted for detecting variations in the shadow of an actuation member (16) and for deducing therefrom an item of information representative of a variation of position of the actuation member.
Owner:ISORG +1

Photonic sensor for in situ selective detection of components in a fluid

A fluid sensor that includes fluid sensitive interferometric nanostructure layers configured into an open-air resonant structure. Another fluid sensor also includes a polarization sensitive photodetector configured to detect optical contributions of different components of a fluid to the structure. A photonic sensor system includes: a photodetector; a signal processor coupled to the photodetector; and a sensor structure configured to provide fluid-response selectivity, spatially distribute light, and to receive light from a light source and convey light to the photodetector. A method of selective measurement of components in fluid in a process area includes: exposing a sensing structure to the fluid; interrogating the sensing structure with light from outside the process area; measuring a change in optical properties of the sensing structure; correlating the measured change to a stored value; and providing quantitative values of levels of the components in the fluid.
Owner:GENERAL ELECTRIC CO

Very long range pulse coding distribution type Fiber Raman and Brillouin photon sensor

The invention discloses a very long range pulse coding distribution type Fiber Raman and Brillouin photon sensor which is a sensor for measuring temperature and strain and is manufactured by use of the pulse coding principle, the fiber stimulated Raman scattering effect, the spontaneous Raman scattering temperature effect, the spontaneous Brillouin scattering strain effect and the optical time domain reflection principle. Amplified pulse coding reverse anti-Stokes and Stokes Raman scattered lights are directly output into a detection system to be decoded and demodulated by two photoelectric receiving modules to measure the intensity ratio of the lights so as to obtain the temperature information of each section of a fiber. The amplified pulse coding reverse fiber Brillouin scattering light and the beat frequency of the local light of an external-cavity narrow-band fiber laser are subjected to coherent detection, and the strain information of each section of the fiber is obtained by decoding measurement frequency shift. The sensor adopts a time sequence to code laser pulse to effectively increase the photon number of an incident sensing fiber and improve the signal to noise ratio. According to the sensor, the measurement length is increased, and the measurement precision and the spatial resolution are improved.
Owner:CHINA JILIANG UNIV

Chaotic laser relevant full-distribution fiber Raman and Rayleigh photon sensor

The invention discloses a chaotic laser relevant full-distribution fiber Raman and Rayleigh photon sensor which is manufactured by positioning measurement points according to the chaotic laser relevant principle, the fiber Raman and Rayleigh fusion scattering sensing principle and the optical time domain reflection principle. The sensor adopts a chaotic laser, an optical pulse sequence which is randomly fluctuant on a time domain is subjected to relevant processing by the reverse detection light of a sensing fiber and local reference light to improve the spatial resolution of a sensor system.The photon number of an incident fiber is effectively increased, the signal to noise ratio of the sensor system is improved, the measurement length and measurement precision of the sensor are improved, and the on-site deformation and fissure can be measured while on-site temperature is measured without intersecting with measurement temperature. The chaotic laser relevant full-distribution fiber Raman and Rayleigh photon sensor has the characteristics of low cost, long service life, simple structure, high spatial resolution, good signal to noise ratio and the like and is suitable for monitoring 15cm petrochemical pipelines with high spatial resolution within the range of 30 kilometers as well as the large civil engineering and monitoring hazard forecast.
Owner:CHINA JILIANG UNIV

Vernier photonic sensor data-analysis

Quantifying a refractive index of a test medium by obtaining spectral data representative for an optical signal being modulated with an optical transfer characteristics of a photonic sensor, the modulation being obtained by combining modulation of a first electromagnetic wave component in an optical filter element with a first periodic transfer spectrum having a first free spectral range and modulation of a second electromagnetic wave component in an optical filter element with a second periodic transfer spectrum having a second free spectral range being different from the first free spectral range. A relative is change induced in the second periodic transfer spectrum by bringing the test medium in proximity with the optical filter element with the second periodic transfer spectrum. The refractive index of the test medium is quantified by determining a wavelength offset of an envelope signal in said spectral data.
Owner:INTERUNIVERSITAIR MICRO ELECTRONICS CENT (IMEC VZW) +1

Photonic sensors, xerogel-based sensors and nanosensors

A photonic sensor system is provided. The system generally includes a beta emission source, optionally, a scintillation layer, and a luminophore-containing sensory layer. The system can be embodied in a particle. Also provided are photonic sensor strategies which are highly accurate and photonic sensors which are highly stable.
Owner:THE RES FOUND OF STATE UNIV OF NEW YORK

Intensity-correlation star sensor

The invention provides an intensity-correlation star sensor which comprises a first lens hood, a second lens hood, a first optical telescope, a second optical telescope, a scanning type sensor, a single photon sensor, electronics read-out equipment, video processing equipment, a satellite-borne time-frequency device, satellite-borne data processing equipment and an interface. By using detection signals of two paths of optical detection systems, the obtained two paths of electric signals are subjected to time synchronization by using the satellite-borne time-frequency device, and are subjected to intensity-correlation signal processing in the satellite-borne data processing equipment. Therefore, on the basis of keeping an integral appearance shape of an optical system of an original star sensor unchangeable, an internal structure is locally regulated, and the engineering realization is easy. The starry sky is imaged by using an intensity-correlation method in a quantum imaging technology, and is searched by using the scanning type sensor; the single photon is used in the other path, relatively dark star bodies are relatively easily detected, and the detection sensitivity is greatly improved.
Owner:BEIJING INST OF AEROSPACE CONTROL DEVICES

Integrated microwave-to-optical single-photon transducer with strain-induced electro-optic material

Transducers and methods of making the same include a substrate having a cavity with a diameter that supports whispering gallery modes at a frequency of an input signal. A focusing structure in the cavity focuses the electric field of the input signal. A resonator directly under the focusing structure has a crystalline structure that generates an electro-optic effect when exposed to electrical fields. An electric field of the input signal modulates an output signal in the resonator via the electro-optic effect.
Owner:IBM CORP

Method and device for optics based quantum random number generation

A device for random number generation based on an optical process of quantum nature, including a light source emitting photons randomly, a light detector adapted to absorb the randomly emitted photons and to measure a number n of photons produced by the light source in a time interval T, and a randomness extractor. The detector includes a photon sensor acting as a photon-to-electron converter, an amplifier for converting the electron signal received from the photon sensor into a voltage and amplifying the voltage signal, as well as an analog-to-digital converter for processing the amplified signal received from the amplifier by encoding the amplified signal into digital values and sending these digital values to the randomness extractor for further processing such as to produce quantum random numbers (QRNs) based on the number of photons produced by the light source in a time interval T.
Owner:UNIVERSITY OF GENEVA
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