Patents Examined by Daniel Petkovsek
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Patent number: 11556045Abstract: A device for generating individual photons with energy E includes quantum emitters, having at least one determined transition with the energy E from an energy level N* to a lower energy level N1. The emitters are near a propagation path running from first to second regions. The device also includes at least one light source to output light, for propagation along the path. The light has the energy E for resonant excitation of the energy level N*. The emitters are arranged so that optionally exactly Z emitters are illuminated, forming an optical thickness ?>0 for the light along the path. The number Z lies in a range of Z0±10% and Z0 is a number at which a maximum destructive interference in the second region occurs between a two-photon component of the light scattered on the ZO emitters and a two-photon component of the non-scattered light.Type: GrantFiled: September 20, 2019Date of Patent: January 17, 2023Assignees: Humboldt-Universitaet zu Berlin, University of CopenhagenInventors: Philipp Schneeweiss, Juergen Volz, Arno Rauschenbeutel, Sahand Mahmoodian, Anders Søndberg Sørensen
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Patent number: 11556044Abstract: Disclosed is an optical component, being configured to function as an optical frequency converter in a broadband radiation source device. The optical component comprises a gas cell, and a hollow-core photonic crystal fiber at least partially enclosed within said gas cell. The local cavity volume of said gas cell, where said hollow-core photonic crystal fiber is enclosed within the gas cell, comprises a maximum value of 36 cm3 per cm of length of said hollow-core photonic crystal fiber.Type: GrantFiled: September 27, 2021Date of Patent: January 17, 2023Assignee: ASML Netherlands B.V.Inventors: Patrick Sebastian Uebel, Sebastian Thomas Bauerschmidt, Peter Maximilian Götz
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Patent number: 11550201Abstract: An optical waveguide structure comprises a nonlinear optical waveguide comprising a nonlinear optical material having a second order nonlinear coefficient that changes with a direction of light propagation. A first portion of the nonlinear optical waveguide in which a light propagating through the first portion is affected by a positive value of a second order nonlinear coefficient. A second portion of the nonlinear optical waveguide in which the light propagating through the first portion is affected by a negative value of a second order nonlinear coefficient, wherein a set of dimensions in the nonlinear optical waveguide in the first portion and the second portion is selected to cause the light to have a phase walk-off that is an odd multiple of 180 degrees.Type: GrantFiled: October 5, 2021Date of Patent: January 10, 2023Assignee: The Boeing CompanyInventors: Daniel Yap, Shuoqin Wang, Ivan Alvarado, Brett Yurash, Thaddeus Ladd
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Patent number: 11550173Abstract: There is set forth herein an integrated photonics structure having a waveguide disposed within a dielectric stack of the integrated photonics structure, wherein the integrated photonics structure further includes a field generating electrically conductive structure disposed within the dielectric stack; and a heterogenous structure attached to the integrated photonics structure, the heterogenous structure having field sensitive material that is sensitive to a field generated by the field generating electrically conductive structure.Type: GrantFiled: November 18, 2020Date of Patent: January 10, 2023Assignees: THE RESEARCH FOUNDATION FOR THE STATE UNIVERSITY OF NEW YORK, GOVERNMENT OF THE UNITED STATES, AS REPRESENTED BY THE SECRETARY OF THE AIR FORCE, MORTON PHOTONICS INCORPORATIONInventors: Douglas Coolbaugh, Douglas La Tulipe, Paul A. Morton, Nicholas G. Usechak
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Patent number: 11543731Abstract: A method of generating an m-photon entangled state includes inputting photons into a plurality of sets of modes. Each set of modes is coupled to a different set of modes. The method includes detecting photons in the plurality of sets of modes. The method includes, in accordance with a determination, based on a number of photons detected, that more than m-photons remain in the plurality of sets of modes: performing a second detection operation that includes detecting photons in the plurality of sets of modes; determining, based at least in part on a number of photons detected, whether the photons remaining in the plurality of sets of modes after the second detection operation are in the m-photon entangled state; and in accordance with a determination that the photons remaining in the plurality of sets of modes are in the m-photon entangled state, outputting the remaining photons.Type: GrantFiled: July 30, 2021Date of Patent: January 3, 2023Assignee: PSIQUANTUM CORP.Inventors: Konrad Kieling, Terence Rudolph, Mercedes Gimeno-Segovia
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Patent number: 11543583Abstract: An optical system including a light-guide optical element (LOE) with a first set of mutually-parallel, partially-reflecting surfaces and a second set of mutually-parallel, partially-reflecting surfaces at a different orientation from the first set. Both sets of partially-reflecting surfaces are located between a set of mutually-parallel major external surfaces. Image illumination introduced at a coupling-in location propagates along the LOE, is redirected by the first set of partially-reflecting surfaces towards the second set of partially-reflecting surfaces, where it is coupled out towards the eye of the user. The first set of partially-reflecting surfaces are implemented as partial surfaces located where needed for filling an eye-motion box with the required image. Additionally, or alternatively, spacing of the first set of partially-reflecting surfaces is varied across a first region of the LOE.Type: GrantFiled: September 9, 2019Date of Patent: January 3, 2023Assignee: Lumus Ltd.Inventors: Tsion Eisenfeld, Ronen Chriki
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Patent number: 11537026Abstract: Kerr and electro-optic frequency comb generation in integrated lithium niobate devices is provided. In various embodiments, a microring resonator comprising lithium niobate is disposed on a thermal oxide substrate. The microring resonator has inner and outer edges. Electrodes are positioned along the inner and outer edges of the microring resonator. The electrodes are adapted to modulate the refractive index of the microring. A pump laser is optically coupled to the microring resonator. The microring resonator is adapted to emit an electro-optical frequency comb when receiving a pump mode from the pump laser and when the electrodes are driven at a frequency equal to a free-spectral-range of the microring resonator.Type: GrantFiled: April 30, 2019Date of Patent: December 27, 2022Assignees: PRESIDENT AND FELLOWS OF HARVARD COLLEGE, THE BOARD OF TRUSTEES OF LELAND STANFORD JUNIOR UNIVERSITYInventors: Mian Zhang, Cheng Wang, Marko Loncar, Brandon Taylor Buscaino, Joseph M. Kahn
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Patent number: 11536895Abstract: A polarization-independent orbital angular momentum modulator based on a chiral fiber grating, a method for manufacturing the same, and an orbital angular momentum beam generator. The orbital angular momentum modulator includes an optical fiber body having a spiral fiber structure, and the spiral fiber structure has a long-period optical fiber grating effect. The optical fiber body has a periodic spiral refractive index modulation in an axial direction. A period of the spiral refractive index modulation has a magnitude of hundreds of microns, and the spiral refractive index modulation is distributed in an axial direction, a radial direction, and an angular direction of the optical fiber body, and configured to excite a spiral phase to generate an orbital angular momentum beam.Type: GrantFiled: November 28, 2018Date of Patent: December 27, 2022Assignee: SHENZHEN UNIVERSITYInventors: Zhiyong Bai, Yan Zhang, Yiping Wang, Cailing Fu, Shen Liu
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Patent number: 11536911Abstract: A ferrule includes a ferrule matrix, an optical fiber, and a dielectric reflective film. The optical fiber is disposed in an accommodating through hole of the ferrule matrix, and the dielectric reflective film covers an optical transmission surface of the optical fiber and a surface that is of the ferrule matrix and that faces a matching ferrule. The dielectric reflective film has a through hole, such that the dielectric reflective film does not shield a main optical path area of the optical transmission surface of the optical fiber. A reflective band of the dielectric reflective film includes at least a part of a communication band of the optical fiber. In this way, when light from the matching ferrule is transmitted to the ferrule matrix and the optical fiber, the dielectric reflective film reflects the light.Type: GrantFiled: January 13, 2021Date of Patent: December 27, 2022Assignee: HUAWEI TECHNOLOGIES CO., LTD.Inventors: Dan Guo, Baoqi Wang, Junying Zhao
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Patent number: 11531158Abstract: An aspect relates to a system with an optical faceplate for use with a two dimensional display. The optical faceplate comprises a contact surface at a bottom side of the optical faceplate for contacting the two dimensional display. The optical faceplate further comprises a three dimensional display surface at a top side of the optical faceplate, and an optic light guide material provided between the contact surface and the three dimensional display surface.Type: GrantFiled: May 27, 2021Date of Patent: December 20, 2022Assignee: Bayerische Motoren Werke AktiengesellschaftInventor: Etienne Iliffe-Moon
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Patent number: 11526331Abstract: An apparatus and a corresponding method for generating at least one random number are disclosed. The apparatus includes an optical parametric oscillator being pumped by a pump signal with a predetermined pump power and a predetermined pump frequency. The optical parametric oscillator is configured to operate in a period multiplication state for providing an oscillator output signal of alternating light pulses, the oscillator output signal having a period that is N-times the period of the pump signal, where N is an integer and N>I. The apparatus also includes a comparing unit being configured to compare the output signal with a reference signal, wherein the reference signal has a frequency that is 1/N of the predetermined pump frequency, and an evaluation unit being configured to generate the at least one random number based on the comparison of the output signal with the reference signal.Type: GrantFiled: October 30, 2017Date of Patent: December 13, 2022Assignees: UNIVERSITAT STUTTGART, MAX-PLANCK-GESELLSCHAFT ZUR FORDERUNG DER WISSENSCHAFTEN E.V.Inventors: Tobias Steinle, Ilja Gerhardt, Johannes Nikolaus Greiner, Harald Giessen
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Patent number: 11520107Abstract: An optical grating coupler defining an axis and configured to couple light between a planar waveguide and an optical fiber, including first and second entry surfaces and a plurality of scattering regions symmetric to the axis and arranged such scattering strength presented to incoming light by the plurality of scattering regions changes from weak to strong along a beam path of the incoming light to match a Gaussian mode profile of the optical fiber.Type: GrantFiled: April 20, 2021Date of Patent: December 6, 2022Assignee: Hewlett Packard Enterprise Development LPInventors: Peng Sun, Thomas Van Vaerenbergh
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Patent number: 11513419Abstract: A light pulse source and method for generating repetitive optical pulses are described. The light pulse source includes a continuous wave cw laser device, an optical waveguide optically coupled with the laser device, an optical microresonator, and a tuning device. The optical microresonator coupling cw laser light via the waveguide into the microresonator, which, may include, a light field in a soliton state with soliton shaped pulses coupled out of the microresonator for providing the repetitive optical pulses. The laser device includes a chip based semiconductor laser, the microresonator and/or the waveguide may reflect an optical feedback portion of light back to the semiconductor laser, which may provide self-injection locking relative to a resonance frequency of the microresonator. The tuning device is arranged for tuning at least one of a driving current and a temperature of the semiconductor laser such that the microresonator may provide the soliton state.Type: GrantFiled: September 17, 2018Date of Patent: November 29, 2022Assignee: Ecole Polytechnique Federale de Lausanne (EPFL)Inventors: Tobias Kippenberg, Michael L. Gorodetsky, Arslan Sajid Raja, Hairun Guo
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Patent number: 11513297Abstract: A telecommunications module defines an interior with separate right and left chambers. An optical component is housed within the left chamber. Signal input and output locations are exposed to the right chamber. The right chamber allows excess fiber to accumulate without bending in a radius smaller than a minimum bend radius. A dual-layered cable management structure is positioned within the right chamber that defines a lower cable-wrapping level and a separate upper cable-wrapping level. The upper cable-wrapping level is defined by a removable cable retainer mounted on a spool defining the lower-cable wrapping level. Cabling carrying the input and output signals are passed between the right and left chambers before and after being processed by the optical component.Type: GrantFiled: September 27, 2021Date of Patent: November 29, 2022Assignee: CommScope Technologies LLCInventors: Kristofer Bolster, Soutsada Vongseng
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Patent number: 11506953Abstract: A method and system for operating a frequency comb. The method may comprise operating an electro-optic (EO) frequency comb with two phase-locked microwave signals to produce an optical output, detecting the optical output with an optical receiver as one or more beat notes, and detecting the one or more beat notes with a radio-frequency spectrum analyzer. The system may comprise an EO frequency comb and an EO phase modulator disposed in the bulk nonlinear crystal resonator. The EO frequency comb may further comprise a continuous-wave laser and a bulk nonlinear crystal resonator connected to the continuous-wave laser.Type: GrantFiled: October 31, 2019Date of Patent: November 22, 2022Assignee: Halliburton Energy Services, Inc.Inventor: Daniel Joshua Stark
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Patent number: 11500265Abstract: A harmonic light-generating metasurface includes a base substrate and a plurality of structures, that include nonlinear material, that are disposed in a pattern on a surface of the base substrate. Each structure of the plurality of structures individually supports a magnetic dipole mode. An electromagnetic field enhancement of the magnetic dipole mode induces generation of a harmonic signal by the plurality of structures. Alternatively, a harmonic light-generating metasurface, includes a base substrate, a supporting substrate that includes a nonlinear material, and a plurality of paired structures disposed in a pattern on a surface of the supporting substrate. Each paired structure, of the plurality of paired structures, collectively supports a toroidal dipole mode. An electromagnetic field enhancement of the toroidal dipole mode penetrates the supporting substrate to induce generation of a harmonic signal by the supporting substrate.Type: GrantFiled: October 1, 2019Date of Patent: November 15, 2022Assignees: WILLIAM MARSH RICE UNIVERISTY, ACADEMIA SINICAInventors: Michael Semmlinger, Ming-Lun Tseng, Jian Yang, Ming Zhang, Din Ping Tsai, Liangliang Dong, Arash Ahmadivand, Peter Nordlander, Naomi Jean Halas
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Patent number: 11500150Abstract: Provided is a waveguide photodetector including a semiconductor substrate, a first optical waveguide and a second optical waveguide, which are sequentially laminated on the semiconductor substrate, in which each of the first optical waveguide and the second optical waveguide includes a first portion and a second portion, and the first portion extends from the second portion in a first direction parallel to a top surface of the semiconductor substrate, a refractive index matching layer disposed on the second portion of the second optical waveguide, a clad layer disposed on the refractive index matching layer, and an absorber disposed between the refractive index matching layer and the clad layer. Here, the second optical waveguide has a first conductive-type, the clad layer has a second conductive-type opposite to the first conductive-type, and the refractive index matching layer includes a first semiconductor layer that is an intrinsic semiconductor layer.Type: GrantFiled: February 11, 2021Date of Patent: November 15, 2022Assignee: ELECTRONICS AND TELECOMMUNICATIONS RESEARCH INSTITUTEInventors: Joong-Seon Choe, Duk Jun Kim, Jong-Hoi Kim, Jonghyurk Park, Won Seok Han
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Patent number: 11480846Abstract: In various embodiments, a beam-parameter adjustment system and focusing system alters a spatial power distribution of a radiation beams before the beam is coupled into an optical fiber or delivered to a workpiece.Type: GrantFiled: January 5, 2021Date of Patent: October 25, 2022Assignee: TeraDiode, Inc.Inventors: Parviz Tayebati, Wang-Long Zhou, Bien Chann, Bryan Lochman
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Patent number: 11476629Abstract: A pulsed laser output section outputs a laser beam having a predetermined wavelength as first pulses. An optical path determining section receives the first pulses and determines one among a plurality of optical paths for each of the first pulses for output. A parallelizing section parallelizes a traveling direction of light beams traveling, respectively, through the plurality of optical paths. A wavelength changing section receives outputs from the parallelizing section and changes the outputs to have different wavelengths for output. A focusing section receives and focuses outputs from the wavelength changing section. An optical fiber receives an output from the focusing section at a core end face. A timing control section is arranged to time outputs from the optical path determining section to the output of the first pulses. The focusing section is arranged to focus the outputs from the wavelength changing section on the core end face.Type: GrantFiled: March 12, 2021Date of Patent: October 18, 2022Assignee: ADVANTEST CORPORATIONInventor: Takao Sakurai
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Patent number: 11474414Abstract: A technique to generate terahertz radiation is disclosed, where a pump beam (12) is coupled into an optical element (50) made of a medium with non-linear optical properties having plane-parallel front and rear boundary surfaces (51, 52), wherein the pump beam (12) is split into a set of partial pump beams (121) by reflection and/or diffraction on a periodic relief structure (53) of said optical element (50). The partial pump beams travel along a direction at an angle ? that satisfies the velocity matching condition of vp,cs cos(?)=vTHz,f within the given medium, where vp,cs is the group velocity of the pump beam, vTHz,f is the phase velocity of the terahertz radiation and the speed a planar envelope (212) travels toward the front boundary surface (51) of the optical element (50), and angle ? is the angle formed by the pulse front envelope and the phase front of the pump beam.Type: GrantFiled: October 31, 2019Date of Patent: October 18, 2022Assignee: PÉCSI TUDOMÁNYEGYETEMInventors: János Hebling, Gábor Almási, László Pálfalvi, György Tóth