Patents by Inventor Ming-Jun Li

Ming-Jun Li has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Publication number: 20240036252
    Abstract: A hollow-core optical fiber may include a hollow core extending along a central longitudinal axis of the fiber; a substrate, the substrate having a tubular shape and an inner surface surrounding the central longitudinal axis of the fiber; and a plurality of cladding elements positioned between the hollow core and the substrate, each of the cladding elements extending in a direction parallel to the central longitudinal axis of the fiber. Each of the cladding elements includes a primary capillary, the primary capillary directly contacting the inner surface of the substrate and having an inner surface defining a cavity, and a plurality of nested capillaries positioned within the cavity, each of the nested capillaries directly contacting the inner surface of the primary capillary.
    Type: Application
    Filed: July 26, 2023
    Publication date: February 1, 2024
    Inventors: Paulo Clovis Dainese, JR., Wei Jiang, Ming-Jun Li, Xiaojun Liang, Dan Trung Nguyen, Ilia Andreyevich Nikulin
  • Publication number: 20240027716
    Abstract: A rollable optical fiber ribbon utilizing low attenuation, bend insensitive fibers and cables incorporating such rollable ribbons are provided. The optical fibers are supported by a ribbon body, and the ribbon body is formed from a flexible material such that the optical fibers are reversibly movable from an unrolled position to a rolled position. The optical fibers have a large mode filed diameter, such as ?9 microns at 1310 nm facilitating low attenuation splicing/connectorization. The optical fibers are also highly bend insensitive, such as having a macrobend loss of ?0.5 dB/turn at 1550 nm for a mandrel diameter of 15 mm.
    Type: Application
    Filed: September 28, 2023
    Publication date: January 25, 2024
    Inventors: Dana Craig Bookbinder, Ming-Jun Li, Pushkar Tandon
  • Publication number: 20240012202
    Abstract: An apparatus comprises a fiber input, the fiber input comprising a plurality of input fiber cores receiving a plurality of input optical signals. The apparatus also comprises an optical signal manipulation device that is one of a fiber mode shuffler, a fiber coupler, a power splitter, or a 90-degree optical hybrid. The optical signal manipulation device comprises an input aperture held in spaced relation to the fiber input, an output aperture, and a plurality of metasurfaces that manipulate phase profiles of the plurality optical signals to generate a plurality of output optical signals having a different spatial arrangement than the input optical signal. A fiber output is held in spaced relation to the output aperture such that fiber cores of the fiber output receive the plurality of output optical signals.
    Type: Application
    Filed: January 29, 2021
    Publication date: January 11, 2024
    Inventors: Paulo Clovis Dainese, JR., Kangmei Li, Ming-Jun Li, Jun Yang
  • Publication number: 20240004152
    Abstract: A few mode optical fiber that includes a core and a cladding surrounding the core, the cladding comprising at least one stress member. The core and the cladding support the propagation and transmission of at least LP01, LP11a, and LP11b modes at one or more wavelengths. Furthermore, the LP01, LP11a, and LP11b modes each have a birefringence of about 5.7×10?6 or less at 1310 nm. And an effective index difference between the LP11a and LP11b modes is about 3.0×10?5 or greater.
    Type: Application
    Filed: June 21, 2023
    Publication date: January 4, 2024
    Inventors: Xin Chen, Kangmei Li, Ming-Jun Li
  • Patent number: 11860408
    Abstract: The disclosure provides optical fibers that exhibit low macrobend loss at 1550 nm at bend diameters between 10 mm and 40 mm. The relative refractive index profile of the fibers includes a trench cladding region with small depth, large width and a trench volume configured to minimize macrobend loss at large and small bend diameters. The optical fiber includes an outer cladding region that surrounds and is directly adjacent to the trench cladding region and an optional offset cladding region between the trench cladding region and the core region. In some embodiments, the trench cladding region has a relative refractive index that decreases monotonically from the inner radius to the outer radius. The monotonic decrease in relative refractive index may have a constant slope. The low macrobend loss at large and small diameters makes the optical fibers well suited for space-constrained deployment environments, such as data centers.
    Type: Grant
    Filed: February 28, 2022
    Date of Patent: January 2, 2024
    Assignee: Corning Incorporated
    Inventors: Ming-Jun Li, Pushkar Tandon
  • Publication number: 20230408760
    Abstract: The optical fiber disclosed has a glass fiber including a core and a cladding. The core comprises silica glass doped with chlorine and having an outer radius r1 between 3.0 microns and 10.0 microns. The cladding has an outer radius r4 not less than 50.0 microns. A primary coating surrounding the cladding has a thickness (r5?r4) between 5.0 microns and 20.0 microns, and an in situ modulus less than 0.30 MPa. A secondary coating surrounding the primary coating has a thickness (r6?r5) between 8.0 microns and 30.0 microns, a Young's modulus greater than 1500 MPa, and a normalized puncture load greater than 3.6×10?3 g/micron 2. The optical fiber has a 22-meter cable cutoff wavelength less than 1530 nm, an attenuation at 1550 nm of less than 0.17 dB/km, and a bending loss at 1550 nm of less than 3.0 dB/turn.
    Type: Application
    Filed: August 31, 2023
    Publication date: December 21, 2023
    Inventors: Scott Robertson Bickham, Ming-Jun Li, Snigdharaj Kumar Mishra, Pushkar Tandon, Ruchi Sarda Tandon
  • Publication number: 20230393328
    Abstract: An optical fiber is provided that includes a core region, a cladding region having a radius less than about 62.5 microns; a polymer coating comprising a high-modulus layer and a low-modulus layer, wherein a thickness of the low-modulus inner coating layer is in a range of 4 microns to 20 microns, the modulus of the low-modulus inner coating layer is less than or equal to about 0.35 MPa, a thickness of the high-modulus coating layer is in a range of 4 microns to 20 microns, the modulus of the high-modulus inner coating layer is greater than or equal to about 1.6 GPa, and wherein a puncture resistance of the optical fiber is greater than 20 g, and wherein a microbend attenuation penalty of the optical fiber is less than 0.
    Type: Application
    Filed: August 21, 2023
    Publication date: December 7, 2023
    Inventors: Scott Robertson Bickham, Matthew Ryan Drake, Shandon Dee Hart, Ming-Jun Li, Joseph Edward McCarthy, Weijun Niu, Pushkar Tandon
  • Patent number: 11815713
    Abstract: A multicore optical fiber includes two or more cores, a common interior cladding surrounding the two or more cores, and a common exterior cladding surrounding the common interior cladding. The common exterior cladding has a lower relative refractive index than the common interior cladding and reduces tunneling losses from the cores. The reduced tunneling loss allows placement of cores closer to the edge of the fiber, thus providing multicore optical fibers having higher core count for a given fiber diameter. Separation between cores is controlled to minimize crosstalk.
    Type: Grant
    Filed: June 23, 2022
    Date of Patent: November 14, 2023
    Assignee: Corning Incorporated
    Inventors: Ming-Jun Li, Gaozhu Peng
  • Patent number: 11801146
    Abstract: An artificial intervertebral disc is configured to be inserted between adjacent human vertebrae. The artificial intervertebral disc includes a first connection block, a joint block and a second connection block. The joint block has a convex surface and a rear surface. The rear surface of the joint block is stacked on the first connection block. The second connection block is slidably stacked on the convex surface of the joint block, such that the second connection block is movable relative to the first connection block. In addition, the convex surface is a curved surface, and the convex surface is arranged off-axis with respect to the rear surface.
    Type: Grant
    Filed: December 14, 2021
    Date of Patent: October 31, 2023
    Assignee: INDUSTRIAL TECHNOLOGY RESEARCH INSTITUTE
    Inventors: Fang-Chieh Chang, Pei-I Tsai, Shih-Ping Lin, Ming-Jun Li, Chih-Chieh Huang, Hsin-Hsin Shen, Meng-Huang Wu
  • Patent number: 11796749
    Abstract: A rollable optical fiber ribbon utilizing low attenuation, bend insensitive fibers and cables incorporating such rollable ribbons are provided. The optical fibers are supported by a ribbon body, and the ribbon body is formed from a flexible material such that the optical fibers are reversibly movable from an unrolled position to a rolled position. The optical fibers have a large mode filed diameter, such as ?9 microns at 1310 nm facilitating low attenuation splicing/connectorization. The optical fibers are also highly bend insensitive, such as having a macrobend loss of ?0.5 dB/turn at 1550 nm for a mandrel diameter of 15 mm.
    Type: Grant
    Filed: October 21, 2022
    Date of Patent: October 24, 2023
    Assignee: CORNING RESEARCH & DEVELOPMENT CORPORATION
    Inventors: Dana Craig Bookbinder, Ming-Jun Li, Pushkar Tandon
  • Publication number: 20230331436
    Abstract: A glass container including a body having a delamination factor less than or equal to 10 and at least one marking is described. The body has an inner surface, an outer surface, and a wall thickness extending between the outer surface and the inner surface. The marking is located within the wall thickness. In particular, the marking is a portion of the body having a refractive index that differs from a refractive index of an unmarked portion of the body. Methods of forming the marking within the body are also described.
    Type: Application
    Filed: May 4, 2023
    Publication date: October 19, 2023
    Inventors: Steven Edward DeMartino, Daniel Warren Hawtof, Ming-Jun Li, Anping Liu, John Stephen Peanasky, Christopher Lee Timmons, Qi Wu
  • Publication number: 20230324614
    Abstract: The present disclosure relates to a lensed optical fiber having a lens applied onto an end face of an optical fiber by laser beam processing. The lens having a radius of curvature that is greater than the diameter of the optical fiber. The lens is applied onto the end face of the optical fiber by laser beam processing in which a laser beam is applied onto the end face of the optical fiber to create the lens. The laser beam has a wavelength ranging between 2.65 microns and 2.85 microns.
    Type: Application
    Filed: March 30, 2023
    Publication date: October 12, 2023
    Inventors: Ming-Jun Li, Ying Liu, Lei Yuan
  • Patent number: 11782207
    Abstract: An optical fiber is provided that includes a core region, a cladding region having a radius less than about 62.5 microns; a polymer coating comprising a high-modulus layer and a low-modulus layer, wherein a thickness of the low-modulus inner coating layer is in a range of 4 microns to 20 microns, the modulus of the low-modulus inner coating layer is less than or equal to about 0.35 MPa, a thickness of the high-modulus coating layer is in a range of 4 microns to 20 microns, the modulus of the high-modulus inner coating layer is greater than or equal to about 1.6 GPa, and wherein a puncture resistance of the optical fiber is greater than 20 g, and wherein a microbend attenuation penalty of the optical fiber is less than 0.03 dB/km, and wherein an outer diameter of the coated optical fiber is less than or equal to 175 microns.
    Type: Grant
    Filed: July 21, 2021
    Date of Patent: October 10, 2023
    Assignee: CORNING INCORPORATED
    Inventors: Scott Robertson Bickham, Matthew Ryan Drake, Shandon Dee Hart, Ming-Jun Li, Joseph Edward McCarthy, Weijun Niu, Pushkar Tandon
  • Publication number: 20230314697
    Abstract: A coupled-core multicore optical fiber has a plurality of cores that are doped with alkali metals or chlorine to achieve low attenuation and a large effective area. The cores may be embedded in a common cladding region that may be fluorine doped. The cores may also be doped with chlorine, either with the alkali metals described above or without the alkali metals.
    Type: Application
    Filed: May 24, 2023
    Publication date: October 5, 2023
    Inventors: Scott Robertson Bickham, Dana Craig Bookbinder, Ming-Jun Li, Snigdharaj Kumar Mishra, Pushkar Tandon
  • Publication number: 20230314276
    Abstract: A method of categorizing single mode optical fibers, the method including determining one or more fiber properties of an optical fiber, the optical fiber being a single mode optical fiber at an operating wavelength of about 1310 nm. The method further including calculating a peak bandwidth wavelength of the optical fiber based on the one or more fiber properties, comparing the calculated peak bandwidth wavelength with a target peak bandwidth wavelength and based on the comparison, determining if the optical fiber meets a target modal bandwidth.
    Type: Application
    Filed: March 30, 2023
    Publication date: October 5, 2023
    Inventors: Xin Chen, Kangmei Li, Ming-Jun Li, Snigdharaj Kumar Mishra, Simit Mayank Patel
  • Publication number: 20230305221
    Abstract: The optical fibers disclosed have single mode and few mode optical transmission for VCSEL-based optical fiber transmission systems. The optical fibers have a cable cutoff wavelength ?C of equal to or below 1260 nm thereby defining single mode operation at a wavelength in a first wavelength range greater than 1260 nm and few-mode operation at a wavelength in a second wavelength range from 970 nm and 1070 nm. The mode-field diameter is in the range from 9.3 microns to 10.9 microns at 1550 nm. The optical fibers have an overfilled bandwidth OFL BW of 1 GHz.km to 3 GHz.km at the at least one wavelength in the second wavelength range. VCSEL based optical transmission systems and methods are disclosed that utilize both single core and multicore versions of the optical fiber.
    Type: Application
    Filed: September 6, 2022
    Publication date: September 28, 2023
    Inventors: Scott Robertson Bickham, Xin Chen, Kangmei Li, Ming-Jun Li
  • Publication number: 20230266525
    Abstract: A single mode optical fiber is provided that includes a core region having an outer radius r1 and a maximum relative refractive index ?1max. The single mode optical fiber further includes a cladding region surrounding the core region, the cladding region includes a depressed-index cladding region, a relative refractive index ?3 of the depressed-index cladding region increasing with increased radial position. The single mode optical fiber has a bend loss at 1550 nm for a 15 mm diameter mandrel of less than about 0.75 dB/turn, a bend loss at 1550 nm for a 20 mm diameter mandrel of less than about 0.2 dB/turn, and a bend loss at 1550 nm for a 30 mm diameter mandrel of less than 0.005 dB/turn. Additionally, the single mode optical fiber has a mode field diameter of 9.0 microns or greater at 1310 nm wavelength.
    Type: Application
    Filed: April 21, 2023
    Publication date: August 24, 2023
    Inventors: Ming-Jun Li, Pushkar Tandon
  • Patent number: 11733449
    Abstract: A coupled-core multicore optical fiber has a plurality of cores that are doped with alkali metals or chlorine to achieve low attenuation and a large effective area. The cores may be embedded in a common cladding region that may be fluorine doped. The cores may also be doped with chlorine, either with the alkali metals described above or without the alkali metals.
    Type: Grant
    Filed: July 28, 2021
    Date of Patent: August 22, 2023
    Assignee: Corning Incorporated
    Inventors: Scott Robertson Bickham, Dana Craig Bookbinder, Ming-Jun Li, Snigdharaj Kumar Mishra, Pushkar Tandon
  • Publication number: 20230236356
    Abstract: The present disclosure relates to a thin coated optical fiber that enables connector assembly without stripping the optical fiber. In particular, the thin coating comprises a hard coating, a dye concentrate, and an adhesion promoter. The formulation of the coating promotes adhesion to a glass cladding of the optical fiber and to a ferrule bore (into which the optical fiber is inserted) by not causing silane decomposition of the coating. Moreover, the coating is colored to enable, among other things, fiber identification within a connector. The thin coated optical fibers exhibit good mechanical and optical performance properties as discussed herein.
    Type: Application
    Filed: January 3, 2023
    Publication date: July 27, 2023
    Inventors: Jeffrey Scott Clark, Matthew Ryan Drake, Yunfeng Gu, Ming-Jun Li, Joseph Edward McCarthy, Randy LaRue McClure, Weijun Niu, Qi Wu
  • Patent number: 11698485
    Abstract: A method of manufacturing a multimode optical fiber includes specifying a peak wavelength ?P for the multimode optical fiber. The peak wavelength ?P corresponds to a wavelength at which the multimode optical fiber has a maximum bandwidth. The multimode optical fiber comprises a core and a cladding surrounding and directly adjacent to the core. The core has a radius r1 and a maximum relative refractive index ?1,MAX>0. The cladding comprises a depressed-index region having a minimum relative refractive index ?3,MIN<0 and a volume v. A draw tension T for the multimode optical fiber is selected based on a correlation relating peak wavelength ?P to draw tension T, the correlation comprising a correlation constant. The correlation constant K is a function of at least one of ?1,MAX, r1, v, ?3,MIN, and ?P. The multimode optical fiber is drawn from a preform at the draw tension T.
    Type: Grant
    Filed: December 14, 2020
    Date of Patent: July 11, 2023
    Assignee: Corning Incorporated
    Inventors: Xin Chen, Ming-Jun Li, Simit Mayank Patel