Abstract: An optical fiber having metallic micro/nano-structure on end-facet, and a fabrication method and an application method thereof. The metallic micro/nano-structure is a micro-nano structure resonance cavity on a metallic film, and generates surface plasmon resonance when an optical fiber guided wave is incident. In the fabrication method according to the present invention, the metallic micro/nano-structure on the surface of the substrate is aligned with and is adhered to the end-facet of the optical fiber, and is removed for transferring to the end-facet of the optical fiber. In the application method according to the present invention, the end-facet of the optical fiber is contacted with or moved towards a medium, and a refractive index of the medium is measured by measuring reflection of an optical fiber guided wave by the metallic micro/nano-structure resonance cavity.
Abstract: Various embodiments of a monolithic electro-optical (E-O) modulator are described. The monolithic E-O modulator includes an active region comprising a plurality of p-n junction diodes, as well as a modulation electrode and a bias electrode that extend through the active region. The monolithic E-O modulator further includes a resistor-capacitor-bias-capacitor (RCBC) electrode structure configured to receive an electrical modulation signal, a direct-current (DC) bias voltage and a power supply voltage. Specifically, the RCBC electrode structure includes a resistor coupled to the modulation electrode and two capacitors each coupled to a respective end of the bias electrode. Beneficially, the RCBC electrode structure enables the p-n junction diodes to be biased independently from a DC level of the electrical modulation signal.
Type:
Grant
Filed:
August 30, 2019
Date of Patent:
May 25, 2021
Inventors:
Yadong Liu, Tzung-I Su, Pengfei Cai, Dong Pan
Abstract: The present disclosure describes light guides and a method of manufacturing light guides that include a rectangular prism-shaped bar, a first polymer or metal cladding on four sides of the rectangular prism-shaped bar, and a second polymer cladding disposed on the first polymer cladding on the four sides of the rectangular prism-shaped bar.
Type:
Grant
Filed:
February 9, 2018
Date of Patent:
May 18, 2021
Assignee:
Heptagon Micro Optics Pte. Ltd.
Inventors:
Simon Gubser, Qichuan Yu, Choon Hein Law, Ji Wang
Abstract: The disclosure relates to a lithography apparatus for writing to substrate wafers. The apparatus includes: a light generating device including one or a plurality of light sources for generating light; a writing device; a light transferring device including a number of optical waveguides for transferring the light from the light generating device to a writing device, the writing device including a plurality of individually controllable write heads for projecting the light from the one or the plurality of light sources in different regions of a substrate wafer; a transport device for moving the substrate wafer relative to the writing device in a predefined transport direction; and a control device for controlling the writing process on the substrate wafer.
Type:
Grant
Filed:
January 31, 2020
Date of Patent:
May 11, 2021
Assignee:
Carl Zeiss SMT GmbH
Inventors:
Stefan Richter, Enrico Geissler, Dirk Doering, Lakshmanan Senthil Kumar, Guenter Rudolph, Martin Voelcker, Markus Deguenther
Abstract: The present disclosure relates to a stretchable fiber optic sensor that can measure tension, bending, and torsion direction of an object. The fiber optic sensor includes an optical fiber with a fiber Bragg grating (FBG) embedded in a sinusoidal configuration at an off-center position of a deformable substrate.
Type:
Grant
Filed:
February 4, 2019
Date of Patent:
April 27, 2021
Assignee:
UNIVERSITY OF GEORGIA RESEARCH FOUNDATION, INC
Abstract: A semiconductor module includes a photonic integrated circuit and a receptacle. The photonic integrated circuit includes a substrate, a waveguide disposed on the substrate, and a recess in the substrate and having a first width. The receptacle is bonded to a top surface of the substrate and aligning with the recess. The receptacle and the recess jointly form a cavity, and the receptacle has a second width greater than the first width. A method for manufacturing the semiconductor module is also disclosed.
Type:
Grant
Filed:
May 15, 2019
Date of Patent:
April 27, 2021
Assignee:
ADVANCED SEMICONDUCTOR ENGINEERING, INC.
Inventors:
Mei-Ju Lu, Chi-Han Chen, Zong-Yu Yang, Pei-Jung Yang
Abstract: Some embodiments are directed to optical conductors comprising one or more fibrillar organic supramolecular species including an association of triarylamines, methods of preparation and applications thereof as optical and plasmonic waveguides.
Type:
Grant
Filed:
January 27, 2017
Date of Patent:
April 20, 2021
Assignees:
CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE, UNIVERSITÉ DE STRASBOURG
Inventors:
Nicolas Giuseppone, Joseph John Armao, IV, Gero Decher
Abstract: Presented herein is a tray for shipping, handling, and/or processing optomechanical components. The tray has a plurality of pockets arranged in an array, wherein each pocket is configured to hold one optomechanical component, and wherein each pocket includes at least one fiducial hole, at least one vacuum hole, a first cradle element configured to support a clip that attaches to one or more optical fibers of the optomechanical component, and a second cradle element configured to support a head of the optomechanical component. Also presented herein is a clip for an optomechanical component that includes a body having a top face and a bottom face, and a plurality of gripping elements arranged in pairs on the bottom face, each pair of gripping elements configured to support a barrel of an optical connector attached to a corresponding optical fiber of the pair of optical fibers.
Type:
Grant
Filed:
November 26, 2019
Date of Patent:
April 13, 2021
Assignee:
CISCO TECHNOLOGY, INC.
Inventors:
Neeraj Kumar Dubey, Adam Jacob Forrer, Steven Luther Moyer, Prakash Gothoskar
Abstract: A telecommunications assembly includes a chassis and a plurality of modules removably mounted within the chassis. The modules include one or more fiber optic signal input locations. The modules include optical equipment for splitting the input signals into customer output signals.
Abstract: Aspects of the present disclosure disclose apparatuses, systems, and methods for providing an electromagnetic wave from one layer of a photonic circuit structure to another layer of the photonic circuit structure in at least one of the x-direction, the y-direction, and the z-direction. In so doing, aspects of the present disclosure enable the fabrication and use of multi-dimensional photonic circuit structures, and thus improve the capacity, power, weight, size, and/or cost of the circuits implemented by such multi-dimensional photonic circuit structures.
Abstract: A suspension arm assembly including at least two members relatively rotatable about each other at a joint, with at least one of the joints comprising an infinite rotation joint. The infinite rotation joint allows the members at the infinite rotation joint to have unlimited rotation relative to one another. The infinite rotation joint is configured to pass at least an optical signal therethrough. The infinite rotation joint includes a stator and a rotor. At least two portions of the infinite rotation joint are separable and can automatically form a unit when adjacent arms are connected together such that the infinite rotation joint can be separated into the at least two portions. The at least two portions are configured to be automatically connected to allow the optical signal to pass therethrough once the at least two portions are engaged.
Type:
Grant
Filed:
May 18, 2020
Date of Patent:
March 23, 2021
Assignee:
Stryker Corporation
Inventors:
Gianni Boccoleri, David Chase, Udo Tockweiler, Frank Reiser
Abstract: The present disclosure is generally directed to a multi-channel TOSA arrangement with a housing that utilizes a feedthrough device with at least one integrated mounting surface to reduce the overall dimensions of the housing. The housing includes a plurality of sidewalls that define a hermetically-sealed cavity therebetween. The feedthrough device includes a first end disposed in the hermetically-sealed cavity of the housing and a second end extending from the cavity away from the housing. The feedthrough device provides the at least one integrated mounting surface proximate the first end within the hermetically-sealed cavity. At least a first laser diode driver (LDD) chip mounts to the at least one integrated mounting surface of the feedthrough device. A plurality of laser arrangements are also disposed in the hermetically-sealed cavity proximate the first LDD chip and mount to, for instance, a LD submount supported by a thermoelectric cooler.
Type:
Grant
Filed:
March 7, 2019
Date of Patent:
March 16, 2021
Assignee:
Applied Optoelectronics, Inc.
Inventors:
Kai-Sheng Lin, Kevin Liu, Hao-Chiang Cheng
Abstract: A photonic integrated circuit (PIC) with embedded optical temperature sensing includes an optical interferometer containing a first arm and a second arm, and one or more optical waveguide sections configured to measure an internal temperature of the PIC. The one or more optical waveguide sections are implemented as one or more sections of the first arm and the second arm. The first arm and the second arm have a first optical path length (OPL) and a second OPL and are made of a first material and a second material, respectively.
Abstract: Splice housings for distributing large numbers of optical fiber splices. In some examples, the splice housings can be pivoted relative to each other. In some examples, the splice housings include flexible splice holders configured to hold multiple splices for a first subset of optical fibers while allowing passage of a second subset of optical fibers through the splice holder.
Abstract: The present disclosure is generally directed to a multi-channel TOSA arrangement with a housing that utilizes a feedthrough device with at least one integrated mounting surface to reduce the overall dimensions of the housing. The housing includes a plurality of sidewalls that define a hermetically-sealed cavity therebetween. The feedthrough device includes a first end disposed in the hermetically-sealed cavity of the housing and a second end extending from the cavity away from the housing. The feedthrough device provides the at least one integrated mounting surface proximate the first end within the hermetically-sealed cavity. At least a first laser diode driver (LDD) chip mounts to the at least one integrated mounting surface of the feedthrough device. A plurality of laser arrangements are also disposed in the hermetically-sealed cavity proximate the first LDD chip and mount to, for instance, a LD submount supported by a thermoelectric cooler.
Abstract: The present disclosure relates to a multi-fiber fiber optic connector having features that allows for changeability with respect to gender and polarity. Another aspect relates to a multi-fiber fiber optic connector that can be operated as a true push-pull fiber optic connector.
Abstract: An ultraviolet curable composition and a waveguide manufactured from the same are disclosed herein. In an embodiment, an ultraviolet curable composition for light shielding of a waveguide, comprises a colorant, an acrylate monomer, a urethane acrylate oligomer, an organosilane and a photopolymerization initiator, wherein adhesion between the cured composition and a glass substrate is 5B or greater by a ASTM D3359 standard and/or is 1,500 mN or greater by a microscratch test (MST).
Type:
Grant
Filed:
November 19, 2018
Date of Patent:
January 19, 2021
Inventors:
Areum Kim, Jaehyun Yoo, Sungeun Park, Joonhyung Kim
Abstract: A cabinet having a framework for mounting telecommunications equipment includes a framework and telecommunications equipment mounted to the framework. The equipment may include splitter modules. Spools are mounted within the cabinet to manage overlength slack in fiber optic cables within the cabinet. A patch panel is mounted within the cabinet and define a plurality of cable termination locations for receiving at least some of the fiber optic cables. The patch panel is mounted on a pivotable frame between a storage position and an access position. The plurality of spools are positioned intermediate the telecommunications equipment and the patch panel. A splice area is mounted within the cabinet and is accessible when the pivotable frame is in the access position. The splice area receives fiber optic cables from the patch panel for splicing to additional cables.
Type:
Grant
Filed:
October 3, 2017
Date of Patent:
December 15, 2020
Inventors:
Johan Geens, Pieter Vermeulen, Rudi Verbruggen, Eric Marcel M. Keustermans
Abstract: An optochemical sensor unit including: an optical waveguide; a transmitting unit for emitting a first transmission signal for exciting a luminophore; a receiving unit for receiving a received signal comprising a signal component emitted by the excited luminophore; a measuring chamber for receiving a fluid, wherein the fluid includes magnetic microspheres; a membrane arranged between the measuring chamber and a measuring medium for exchanging an analyte between the measuring medium and the fluid in the measuring chamber, wherein the measuring diaphragm is impermeable to the magnetic microspheres; and an electromagnet for attracting magnetic microspheres to a sensor membrane with a fluid-contacting surface and/or to a fluid-contacting surface of the optical waveguide, or to a surface of a transparent substrate layer of the optical sensor unit that is connected to the optical waveguide.
Abstract: A monolithically integrated wavelength converted photonic integrated circuit (PIC) is fabricated by forming a trench in the PIC's insulating layer to expose a portion of an output waveguide that transmits a photonically processed optical signal at frequency ?1. A non-linear waveguide formed of a non-linear material with non-linear susceptibility at frequency ?1 and a transmission bandwidth spanning both ?1 and m*?1 where m is an integer of at least two is fabricated in direct physical contact with the exposed portion of the output waveguide. A patterned structure is fabricated in or on the non-linear waveguide to enhance non-linear susceptibility to generate an optical signal at frequency m*?1, which may be emitted directly or coupled to an optical antenna.
Type:
Grant
Filed:
August 19, 2019
Date of Patent:
December 15, 2020
Assignee:
Raytheon Company
Inventors:
Sean D. Keller, Gerald P. Uyeno, Benn Gleason