Patents Examined by Xinning (Tom) Niu
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Patent number: 11888286Abstract: A laser chip for flip-chip bonding on a silicon photonics chip with passive alignment features. The laser chip includes a chip body made of a p-region and a n-region in vertical direction and extended from a front facet to a rear facet in longitudinal direction, a pair of first vertical stoppers formed respectively beyond two sides of the chip body based on a wider width of the n-region, an active region buried in the chip body between the p-region and the n-region in the vertical direction and extended from the front facet to the rear facet in the longitudinal direction, an alignment mark formed on a top surface of the p-region near the front facet with a lateral distance defined in sub-micron precision relative to the active region; and a thin metal film on the surface of the p-region having a cleaved edge shared with the front facet.Type: GrantFiled: October 21, 2020Date of Patent: January 30, 2024Assignee: MARVELL ASIA PTE LTDInventors: Xiaoguang He, Radhakrishnan L. Nagarajan
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Patent number: 11885949Abstract: A laser scanning microscopy system includes a laser whose beam is modified by an acousto-optic deflector that includes an optical element having a surface with one or more steps formed thereon; a conductive layer formed on the surface with the steps; one or more crystals secured to each step; and electrodes positioned on each surface of each crystal.Type: GrantFiled: April 7, 2023Date of Patent: January 30, 2024Assignee: IntraAction CorpInventors: Khanh Le, John Lekavich, Bao Tran
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Patent number: 11881677Abstract: A laser light source includes: a resonance unit with a light emitter; and an optical negative feedback unit. The resonance unit includes: a first waveguide; a first reflector to input the reflected light to the first waveguide; a second waveguide; a second reflector connected to the second waveguide; and a ring resonator between the first waveguide and the second waveguide. The light from the first reflector is blocked from the ring resonator and partially transmitted to a first end of the first waveguide opposite to a second end connected to the light emitter and the first reflector. The optical negative feedback unit includes: a third waveguide to which the light transmitted to the first end of the first waveguide is inputted; and a third reflector connected to the third waveguide. The light from the third reflector is inputted to the first waveguide via the third waveguide.Type: GrantFiled: March 11, 2021Date of Patent: January 23, 2024Assignees: DENSO CORPORATION, TOHOKU UNIVERSITY, WASEDA UNIVERSITYInventors: Taku Suzuki, Masashige Sato, Hiroshi Yasaka, Nobuhide Yokota, Tomohiro Kita
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Patent number: 11876340Abstract: The present invention provides a laser, including: a medium, having a ground state, an intermediate state, and an excited state in ascending order of energy; an excitation system, configured to excite electrons in the medium from the ground state to the intermediate state; and an excitation laser, configured to drive electrons in the intermediate state at different spatial positions in the medium to the ground state through a stimulated emission process with a fixed phase relationship, to generate a laser with a shorter relative wavelength. Due to the use of an excitation laser to drive electrons from the intermediate state, the photons generated by the stimulated emission have coherence, thereby forming a laser.Type: GrantFiled: December 26, 2019Date of Patent: January 16, 2024Assignee: SHANGHAI INSTITUTE OF MICROSYSTEM AND INFORMATION TECHNOLOGY, CHINESE ACADEMY OF SCIENCESInventors: Shan Qiao, Zhinan Zeng, Xiaoyan Liang
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Patent number: 11876338Abstract: A device for combining at least two input laser beams having different spectral components. At least one pre-compensation unit for the at least two input laser beams has a diffractive optical unit which expands the input laser beam into an intermediate beam bundle in which the spectral components are spatially arranged so as to be adjacent to one another with increasing wavelength. A combination unit has at least a first diffractive optical element and a second diffractive optical element, the combination unit being aligned with the pre-compensation unit in such a way that the first diffractive optical element converts an intermediate beam bundle into a convergent beam bundle having a beam waist, the beam waist lying on the second diffractive element, and the second diffractive optical element being designed in this way that all incident spectral components are diffracted in a common radiation direction.Type: GrantFiled: July 29, 2021Date of Patent: January 16, 2024Assignee: Rheinmetall Waffe Munition GmbHInventor: Klaus Ludewigt
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Patent number: 11870209Abstract: A laser system includes a beam shaping unit, a random phase plate, and a collimating optical system in an optical path between a solid-state laser device and an excimer amplifier. When a traveling direction of a laser beam entering the excimer amplifier is a Z direction, a discharge direction of a pair of discharge electrodes is a V direction, a direction orthogonal to the V and Z directions is an H direction, a shaping direction of the beam shaping unit corresponding to the V direction is a first direction, a shaping direction of the beam shaping unit corresponding to the H direction is a second direction, an expansion rate in the first direction is E1, and an expansion rate in the second direction is E2, the beam shaping unit expands a beam section of the laser beam such that an expansion ratio defined by E2/E1 is lower than 1.Type: GrantFiled: November 3, 2021Date of Patent: January 9, 2024Assignee: Gigaphoton Inc.Inventors: Yuki Tamaru, Taisuke Miura
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Patent number: 11870207Abstract: A laser device includes a gain medium, a zero-degree reflective mirror, a first retro-reflective mirror, a second retro-reflective mirror, and an output coupling mirror. The gain medium is used to generate radiation light; the zero-degree reflective mirror has a common optical axis with the gain medium, and the zero-degree reflective mirror is used to totally reflect second-direction radiation light that is incident on the zero-degree reflective mirror in an optical-axis direction; the first-direction radiation light and the first emitted light are spaced from and parallel to each other in opposite directions; the first emitted light and the second emitted light are spaced from and parallel to each other in opposite directions; a resonant cavity is formed between the zero-degree reflective mirror and the output coupling mirror; the output coupling mirror is used to transmit and output first partial radiation light, and reflect second partial radiation light.Type: GrantFiled: August 7, 2023Date of Patent: January 9, 2024Assignee: Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of SciencesInventors: Fei Chen, Yi Chen, Junjie Sun, Jinghua Yu, Zhihuan Yao, Yang He, Kuo Zhang, Deyang Yu
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Patent number: 11862931Abstract: In a laser system according to an aspect of the present disclosure, the following components are disposed: a first container that accommodates a first heater and a first crystal holder holding a first nonlinear crystal and includes a first light incident window via which laser light is incident and a first light exit window via which the laser light exits; a second container that accommodates a second heater and a second crystal holder holding a second nonlinear crystal and includes a second light incident window via which the laser light is incident and a second light exit window via which the laser light exits; and a stage that holds the first and second containers. A controller controls the stage to move the first nonlinear crystal away from the optical path of the laser light and inserts the second nonlinear crystal into the optical path of the laser light.Type: GrantFiled: February 8, 2022Date of Patent: January 2, 2024Assignee: Gigaphoton Inc.Inventors: Atsushi Fuchimukai, Chen Qu
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Patent number: 11855407Abstract: Aspects of the present disclosure describe techniques for fast stabilization of multiple controller beams with continuous integrating filter. For example, a method is described for intensity stabilization of laser beams (e.g., ion controller beams) in a trapped ion system, where the method includes applying a linear array of laser beams to respective ions in a linear array of ions in a trap, performing, in response to the laser beams being applied, parallel measurements on the ions, the parallel measurements including multiple, separate measurements on each of the ions to identify fluctuations in intensity in the respective laser beams at each ion, and adjusting the intensity of one or more of the laser beams in response to fluctuations being identified from the parallel measurements. A corresponding system for intensity stabilization of laser beams in a trapped ion system is also described.Type: GrantFiled: August 17, 2020Date of Patent: December 26, 2023Assignee: IonQ, Inc.Inventors: Jonathan Albert Mizrahi, Neal Pisenti
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Patent number: 11848530Abstract: A radio-frequency excited carbon dioxide (CO2) or carbon monoxide (CO) gas laser includes two electrodes, which have passivated surfaces, within a sealed housing. Features in a ceramic slab or a ceramic cylinder located between the electrodes define a gain volume. Surfaces of the ceramic slab or the ceramic cylinder are separated from the passivated surfaces of the electrodes by small gaps to prevent abrasion thereof. Reducing compressive forces that secure these components within the housing further reduces abrasion, thereby extending the operational lifetime of the gas laser.Type: GrantFiled: January 28, 2021Date of Patent: December 19, 2023Assignee: Coherent, Inc.Inventors: Leon A. Newman, Michael Leigh Ermold, James Hyland, Thomas V. Hennessey, Jr., Lanny Laughman
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Patent number: 11848541Abstract: A spectral beam combiner is based upon a specialized diffraction grating that is intentionally configured to create output signals along two separate paths, each path supporting a spectrally-combined beam. One path supports the propagation of a majority of the spectrally-combined beam (e.g., 80-95%) and is defined as the output path from the beam combiner. The remainder of the spectrally-combined beam is directed along a separate path and into an external cavity arrangement used to perform wavelength stabilization. Either reflective or transmissive diffraction gratings may be used, with different diffraction orders and/or polarization states of the spectrally-combined optical beam used to create the output beam and the separate wavelength stabilization feedback beam.Type: GrantFiled: December 15, 2020Date of Patent: December 19, 2023Assignee: II-VI Delaware, Inc.Inventors: Haro Fritsche, Andreas Grohe
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Patent number: 11837844Abstract: A method for singulating semiconductor components (20) is specified, said method comprising the steps of providing a carrier (21), applying at least two semiconductor chips (22) on the carrier (21), etching at least one break nucleus (23) at a side of the carrier (21) facing the semiconductor chips (22), and singulating at least two semiconductor components (20) by breaking the carrier (21) along the at least one break nucleus (23). The at least one break nucleus (23) extends at least in places in a vertical direction (z), the vertical direction (z) being perpendicular to a main extension plane of the carrier (21), and the at least one break nucleus (23) is arranged between the two semiconductor chips (22) in a lateral direction (x), the lateral direction (x) being parallel to the main extension plane of the carrier (21).Type: GrantFiled: December 27, 2018Date of Patent: December 5, 2023Assignee: OSRAM OLED GMBHInventors: John Brückner, Urs Heine, Sven Gerhard, Lars Nähle, Andreas Löffler, André Somers
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Patent number: 11831122Abstract: Orbital debris removal (ODR) systems under the present approach may use a ground- or surface-based FEL and mirror system with sufficient power and both spatial and temporal resolution to both locate Category II OD (1 cm to 10 cm diameter) in low Earth orbit (LEO, 160 to 2000 km altitude) and remove these objects from orbit. Locating the Category II OD is performed by having the light beam from an FEL and its beam director scan a volume of space of interest and then observing the light reflected from the OD. Removing the OD may include heating the OD to a sufficiently high temperature to evaporate the OD, changing the orbit of the OD such as to lower the perigee, or both. Megawatt-class MOPA FELs for, inter alia, removing OD, are described.Type: GrantFiled: September 2, 2022Date of Patent: November 28, 2023Assignee: BNNT, LLCInventors: R. Roy Whitney, David R. Douglas, Henry P. Freund, George R. Neil
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Patent number: 11831121Abstract: Some embodiments may include a fiber laser including two or more input fibers and an output fiber to deliver a beam to a workpiece, the fiber laser comprising. The fiber laser may include a combiner having ends and a length, wherein the combiner is arranged to release, from its length, a portion of back-reflected light received from the output fiber at an output end of the ends from the combiner, the combiner including: a capillary tube to enclose part of the two or more input fibers at an input end of the ends of the combiner, the capillary tube having ends and a length located between the ends of the capillary tube; and a cladding light stripper (CLS) defined by part of the length of the capillary tube, wherein the CLS provides the release of the portion of the back-reflected light. Other embodiments may be disclosed and/or claimed.Type: GrantFiled: January 28, 2021Date of Patent: November 28, 2023Assignee: NLIGHT, INC.Inventors: Juan Carlos Lugo, Teemu Kokki, Roger Farrow, Dahv A. V. Kliner
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Patent number: 11824325Abstract: A multilayer wiring substrate includes a first wiring substrate including a plurality of stacked layers made of a thermo setting resin and having a wiring layer formed between each adjacent layer of the layers in a state in contact with the adjacent layers, a second wiring substrate made of a ceramic, and a joining layer disposed between a back surface of the first wiring substrate and a front surface of the second wiring substrate and configured to join the first wiring substrate and the second wiring substrate to each other, wherein at least a surface of the joining layer adjacent to the second wiring substrate is made of a thermo plastic resin.Type: GrantFiled: September 1, 2021Date of Patent: November 21, 2023Assignee: NGK SPARK PLUG CO., LTD.Inventor: Shingo Totani
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Patent number: 11817679Abstract: A light emitting device includes: a substrate including a main surface; a first projection positioned on the main surface, the first projection including an upper surface and first and second lateral surfaces, wherein the first lateral surface of the first projection comprises a first reflective part, and the second lateral surface of the first projection comprises a second reflective part; a first laser element positioned on the main surface at a first reflective part side with respect to the first projection, the first laser element being configured to irradiate first laser light to the first reflective part; a second laser element positioned on the main surface at a second reflective part side with respect to the first projection, the second laser element being configured to irradiate second laser light to the second reflective part; and a first optical member bonded to the upper surface of the first projection.Type: GrantFiled: January 31, 2023Date of Patent: November 14, 2023Assignee: NICHIA CORPORATIONInventor: Takuya Hashimoto
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Patent number: 11817673Abstract: A gain medium is pumped by a source. An optical wave passes through a photonic integrated circuit (PIC) that comprises: a substrate comprising silicon, multiple photonic structures, an input port coupling an optical wave into a waveguide formed in the PIC, and an output port coupling an optical wave out of a waveguide formed in the PIC. Propagation of an optical wave circulating around a closed path of a laser ring cavity is limited using an optical isolator such that, when the pump source exceeds a lasing threshold, the optical wave propagates in a single direction through the gain medium and PIC. From an output coupler, an output is provided that comprises a fraction (e.g., >0.5) of the power of an optical wave that is incident upon the output coupler, and remaining power of the optical wave is redirected around the closed path of the laser ring cavity.Type: GrantFiled: December 28, 2022Date of Patent: November 14, 2023Assignee: Ciena CorporationInventors: Claude Gamache, Antoine Bois, Marie-Josee Picard
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Patent number: 11811188Abstract: Embodiments relate to a resonator including a graphene layer formed on a support, and a tapered fiber disposed around at least part of the support, close to the graphene layer, wherein the tapered fiber has different paths along which light travels in a region extending from one end and a region extending from the other end, and a passive-mode-locked pulse laser oscillation system including the same.Type: GrantFiled: May 28, 2021Date of Patent: November 7, 2023Assignee: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGYInventors: Yong-Won Song, Sungjae Lee
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Patent number: 11804697Abstract: A laser system according to one aspect of the present disclosure includes a first solid-state laser device, a wavelength conversion system, an excimer amplifier, and a control unit. The first solid-state laser device includes a first multiple semiconductor laser system, a first semiconductor optical amplifier, and a first fiber amplifier. The first multiple semiconductor laser system includes a plurality of first semiconductor lasers configured to perform continuous wave oscillation in a single longitudinal mode with different wavelengths, a first spectrum monitor, and a first beam combiner. The control unit controls an oscillation wavelength and light intensity of each line of a first multiline spectrum generated by the first semiconductor lasers to obtain an excimer laser beam having at least a target center wavelength or a target spectral line width instructed by an external device.Type: GrantFiled: March 4, 2021Date of Patent: October 31, 2023Assignee: Gigaphoton Inc.Inventors: Taisuke Miura, Osamu Wakabayashi
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Patent number: 11799262Abstract: Orbital debris removal (ODR) systems under the present approach may use a ground- or surface-based FEL and mirror system with sufficient power and both spatial and temporal resolution to both locate Category II OD (1 cm to 10 cm diameter) in low Earth orbit (LEO, 160 to 2000 km altitude) and remove these objects from orbit. Locating the Category II OD is performed by having the light beam from an FEL and its beam director scan a volume of space of interest and then observing the light reflected from the OD. Removing the OD may include heating the OD to a sufficiently high temperature to evaporate the OD, changing the orbit of the OD such as to lower the perigee, or both. Megawatt-class MOPA FELs for, inter alia, removing OD, are described.Type: GrantFiled: December 7, 2018Date of Patent: October 24, 2023Assignee: BNNT, LLCInventors: R. Roy Whitney, David R. Douglas, Henry P. Freund, George R. Neil