Abstract: A process for characterizing an optical source including a fixed cavity having a free spectral range, the process including: generating a first radiation; receiving at least a portion of this first radiation by at least one sensor; measuring a signal by each sensor and for each scanned state of the source; on the basis of the signals measured, and for each scanned state of the source, calculating a first data item which represents the wavelength of the first radiation, the calculation including, for each scanned state of the source, a selection of a selected value of the first data item from a plurality of possible values, the selection including the elimination of the values of the first data item which do not correspond to a modulo constant of the free spectral range of the fixed cavity expressed according to the units of the first data item.
Type:
Grant
Filed:
July 6, 2017
Date of Patent:
September 8, 2020
Assignee:
BLUE INDUSTRY AND SCIENCE
Inventors:
Johann Georges Des Aulnois, Benjamin Szymanski, Bertrand Hardy-Baranski
Abstract: A hyperspectral imaging system has a processor to receive hyperspectral imaging parameters and produce a series of images to be acquired at a series of retardances at a series of retardance times, a hyperspectral imaging component having an input polarizer to polarize an incoming beam of light, a liquid crystal variable retarder to receive the polarized beam of light and to produce wavelength-dependent polarized light, an output polarizer to receive the wavelength-dependent polarized light and to convert polarization state information into a form detectable as light intensity, a voltage source connected to the liquid crystal variable retarder, and a retardance controller. The retardance controller receives the series of retardances at a series of retardance times and produces a series of voltages at a series of voltage times to apply to the liquid crystal variable retarder.
Abstract: A solid state ring laser gyroscope comprises a laser block including a resonant ring cavity having an optical closed loop pathway; a plurality of mirror structures mounted on the block and including respective multilayer mirrors that reflect light beams around the closed loop pathway; and a pump laser assembly in optical communication with the closed loop pathway through one of the mirror structures. One or more of the multilayer mirrors includes a rare-earth doped gain layer operative to produce bidirectional optical amplification of counter-propagating light beams in the closed loop pathway. In some embodiments, the gain layer comprises a rare-earth dopant other than neodymium that is doped into a glassy host material comprising titania, tantalum oxide, alumina, zirconia, silicate glass, phosphate glass, tellurite glass, fluorosilicate glass, or non-oxide glass. Alternatively, the gain layer can comprise a neodymium dopant that is doped into a glassy host material other than silica.
Type:
Grant
Filed:
August 17, 2018
Date of Patent:
August 11, 2020
Assignee:
Honeywell International Inc.
Inventors:
Dean E Johnson, Jianfeng Wu, Alan Bruce Touchberry, Teresa Marta
Abstract: An in-line fiber-optic sensing element, a system, and methods for detecting strain using a fiber optic sensor are described that include using at least two chirped grating structures. In an implementation, an in-line fiber-optic sensing element that employs example techniques in accordance with the present disclosure includes an optically transmissive fiber including a core and an outer layer; a Fabry-Perot cavity defined by a portion of the optically transmissive fiber and two chirped fiber-Bragg grating structures, where the two chirped grating structures are separated and are configured to reflect light.
Abstract: In one example, an initial transform is stored for converting wavelength channel responses of a color measurement instrument to color readings. The initial transform is set in-factory by a manufacturer of the color measurement device. A color selection of a sample is subsequently retrieved from a database, where the color selection was made by an end user in response to a color reading by the color measurement instrument using the initial transform. An adjustment to the initial transform is calculated using the color selection. The adjustment is then sent to the color measurement instrument for use in making future color measurements.
Abstract: Novel disposable pipette tips that enable spectroscopic analysis of analytes held within the tip while attached to a microspectrometer or microspectrometer which is a micropipette with the functional capability to irradiate an attached tip with light of a defined wavelength and measure the impact of the sample within the tip on the irradiated light as the modified light is directed back to sensors on or within the instrument. Spectroscopic sample analysis is integral to a wide range of research sciences including microbiology, molecular biology, medical, chemistry, environmental, food, and forensics.
Type:
Grant
Filed:
November 15, 2017
Date of Patent:
July 14, 2020
Assignee:
Spectrum Perception LLC
Inventors:
Bradley Lynn Postier, Thomas Michael Spudich, Jr.
Abstract: Methods and systems to record amplitudes of an interference pattern of a source light at successive rows of a focal plane array as an interferometer traverses the source light, while varying an optical path difference of the interferometer. A fixed frame rate of the focal plane array may be selected such that each in-track row of the focal plane array provides a different point along the interferogram, for the same ground location.
Type:
Grant
Filed:
March 9, 2018
Date of Patent:
July 7, 2020
Assignee:
Eagle Technology, LLC
Inventors:
Paul Maurer, Ronald J. Glumb, Peter Mantica
Abstract: A three-dimensional measurement device includes an optical system that: splits an incident light into two lights; radiates one light to a measurement object and the other light to a reference surface; and emits the combined light; a first irradiator that emits a first light that comprises a polarized light of a first wavelength and enters a first element of the optical system; a second irradiator that emits a second light that comprises a polarized light of a second wavelength and enters a second element of the optical system; a first camera that takes an image of the first light emitted from the second element when the first light enters the first element; a second camera that takes an image of the second light emitted from the first element when the second light enters the second element; and an image processor that performs measurement based on the images.
Abstract: Conventional optical-transmission-type residual stress measuring apparatus cannot be used for completing the measurement of residual stress in an optical film having light reflective property, and conventional optical-reflection-type residual stress measuring apparatus is known failing to achieving the measurement of residual stress in an optical thin film having transparent or translucent property. In view of that, the present invention discloses a system for measuring residual stress in optical thin films, which is able to be utilized for achieving the residual stress measurement of respective optical thin film having transparent or translucent property and that of respective optical thin film having light reflective property.
Abstract: A distance-measuring apparatus and a distance-measuring method. The distance-measuring apparatus and the distance-measuring method include emitting pulsed light, receiving and photoelectrically converting the pulsed light emitted and reflected by an object into a plurality of electrical signals, sorting the electrical signals into a plurality of phase signals, storing data including the phase signals or a value that is based on the phase signals, determining whether or not a dynamic change is present in the object, based on the data of a current frame and at least one past frame, and calculating distance to the object using the data, according to a result of determination made by the determining. When determined that the dynamic change is not present, moving average calculations are performed on the data of at least two of the current frame and a plurality of frames including the at least one past frame.
Abstract: A tunable diode laser absorption spectroscopy device includes a tunable diode laser. A laser driver is configured to drive the diode laser and ramp it within a particular frequency range. An analyte gas container, a reference gas container, and a fringe generating device are configured to receive the laser therethrough. An optical detector is configured to detect the laser after it has passed through the analyte gas container and/or the reference gas container, and the in-line fringe generating device. An acquisition card is configured to sample an output of the optical detector. A spectral analyzer is configured to receive output data from the acquisition card, determine a spectrum of the output data, decouple the fringe spectrum from the measured spectrum, calibrate the spectrum based on an expected ideal spectrum of both the fringe and reference gas, and determine a composition of the analyte based on the calibrated spectrum.
Type:
Grant
Filed:
December 19, 2017
Date of Patent:
June 9, 2020
Assignee:
INTERNATIONAL BUSINESS MACHINES CORPORATION
Inventors:
William Green, Chu Cheyenne Teng, Gerard Wysocki, Chi Xiong, Eric Zhang
Abstract: Refractive index of biological specimens is a source of intrinsic contrast that can be explored without any concerns of photobleaching or harmful effects caused by extra contrast agents. This feature also contains rich information that can be related to the metabolism of cells at the cellular and subcellular levels. The present invention relates to systems and methods that can provide, without any moving parts, the 3-D refractive index map of continuously flowing biological samples in a micro-fluidic channel, for example.
Type:
Grant
Filed:
February 5, 2014
Date of Patent:
June 2, 2020
Assignee:
Massachusetts Institute of Technology
Inventors:
Yongjin Sung, Niyom Lue, Zahid Yaqoob, Ramachandra Dasari, Peter T. C. So
Abstract: Example apparatuses and methods relating to imaging systems are provided. An example imaging system may include an optical source configured to generate an optical beam, a beam splitter configured to split the optical beam into a reference beam and an object beam, and a beam combiner configured to route a combined beam with reference beam and object beam components along a common path into a target medium. In this regard, the target medium may act upon the combined beam to form a common path interference beam. The example imaging system may further include an imaging sensor configured to receive the common path interference beam and generate common path interference beam data associated with the common path interference beam, and an image data processor configured to analyze the common path interference beam data to generate image data describing the target medium.
Type:
Grant
Filed:
November 10, 2016
Date of Patent:
June 2, 2020
Assignee:
The Johns Hopkins University
Inventors:
David W. Blodgett, Mark A. Chevillet, Scott M. Hendrickson, Michael P. McLoughlin
Abstract: In a conventional moiré method, achieving both measurement accuracy and dynamic measurement and balancing field of view and measurement accuracy have been difficult. The present invention makes it possible to handle conventional moiré fringes as a grating for generating phase-shifted second-order moiré fringes, use a spatial phase shift method algorithm to accurately analyze the phases of the second-order moiré fringes before and after deformation, and determine shape from the phase differences between gratings projected onto the surface of an object of measurement and a reference surface and determine deformation and strain from the phase differences between the second-order moiré fringes, before and after deformation, of a repeating pattern on the object surface or a produced grating. As a result, it is possible to measure the three-dimensional shape and deformation distribution of an object accurately and with a wide field of view or dynamically and with a high degree of accuracy.
Type:
Grant
Filed:
June 1, 2017
Date of Patent:
May 19, 2020
Assignee:
NATIONAL INSTITUTE OF ADVANCED INDUSTRIAL SCIENCE AND TECHNOLOGY
Abstract: To provide a three-dimensional measuring device capable of easily measuring a three-dimensional shape of a desired portion of a measurement object in a short time. Designation of a height measurement point and a dimension measurement portion by a user is received. An image of a measurement object S is acquired by an imaging section 220. Light emitted from the light emitting section 231 is deflected by the deflecting section 270 and irradiated on the measurement object S. Height of the portion of the measurement object S corresponding to the designated height measurement point is calculated on the basis of the light reception signal output from the light receiving section. A dimension of a portion of the measurement object S corresponding to the designated dimension measurement portion is calculated on the basis of the image acquired by the imaging section 220.
Abstract: The range of measurement in spectrally controlled interferometry (SCI) is extended by superimposing multiple modulations on the low-coherence light used for the measurement. Optimally, a spectrally controllable light source modulated sinusoidally with low spectral frequency is combined with a delay line, such as provided by a Michelson interferometer. The resulting light is injected into a Fizeau interferometer to generate localized fringes at a distance corresponding to the effect of the spectrally modulated source combined with the optical path difference produced by the delay line. The combination provides a convenient way to practice SCI with all its advantages and with a range that can be extended to the degree required for any practically foreseeable application.
Abstract: Impurities within a sample are detected by use of holographic video microscopy. The sample flows through the microscope and holographic images are generated. The holographic image is analyzed to identify regions associated with large impurities in the sample. The contribution of the particles of the sample to the holographic images is determined and the impurities are characterized.
Type:
Grant
Filed:
September 15, 2016
Date of Patent:
May 5, 2020
Assignee:
NEW YORK UNIVERSITY
Inventors:
David B. Ruffner, David G. Grier, Laura Philips
Abstract: A method for evaluating the condition of grease includes submitting a sample of grease to light from a spectrophotometer, passing the light through the sample along a light path, and analyzing the color or spectrum of the light after emerging from the light path. The length of the light path can be varied as needed to enable translucent or very light-colored greases and greases that are dark provide useable data from the light passing through the grease.
Type:
Grant
Filed:
June 12, 2018
Date of Patent:
April 21, 2020
Assignee:
York Laboratories, LLC
Inventors:
Richard Wurzbach, Evan Bupp, Richard J. Janosky, Jr.
Abstract: An optical probe, according to one embodiment, comprises: an optical fiber into which light for irradiating an object is incident from a light source; a lens which focuses the light incident into the optical fiber; and a wavefront modulator on which a pattern is formed so that the wavefront of the light incident into the optical fiber can be modulated, wherein the optical fiber, the lens, and the wavefront modulator are arranged on the same axis, the light passing through the wavefront modulator can form a focus on the same axis, and the resolution or focal depth of the light can be adjusted through a pattern design formed on the wavefront modulator.
Type:
Grant
Filed:
May 11, 2016
Date of Patent:
April 7, 2020
Assignee:
IUCF-HYU (INDUSTRY-UNIVERSITY COOPERATION FOUNDATION HANYANG UNIVERSITY)
Inventors:
Hong Ki Yoo, Jun Young Kim, JingChao Xing
Abstract: An image capturing apparatus includes an image capturing device that captures an image of light from a subject, the light passing through each of wavelength band filters having invisible wavelengths as passbands, in which parts of the passbands of the filters whose center wavelengths are adjacent to each other mutually overlap, and a control unit that causes the image capturing device to capture an image of the light from the subject on which a first irradiation light is irradiated, the first irradiation light having a first spectral distribution in which parts of the respective passbands of the filters overlap with one another, and causes the image capturing device to capture an image of the light from the subject on which a second irradiation light is irradiated, the second irradiation light having a second spectral distribution in which parts of the respective passbands of the filters overlap with one another.