Patents by Inventor Dan Trung NGUYEN
Dan Trung NGUYEN 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).
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Patent number: 12061360Abstract: A waveguide comprising: a tapered-width first waveguide portion and second waveguide portions and a third waveguide portion, such that along a first direction, widths of a first and the second waveguide portions gradually increase towards a first end of the third waveguide portion, and a distance, in a second direction, between the first waveguide portion and the second waveguide portion gradually decreases from a second end of the first waveguide portion to the first end of the first waveguide portion, wherein the second direction is perpendicular to the first direction; and the maximum distance Gmax between the second end of the first waveguide portion and a second end of the second waveguide portion is greater than 0.2 ?m and less than 0.48 ?m; and the waveguide has a refractive index between 2 and 4 at a 1550 nm wavelength.Type: GrantFiled: May 19, 2020Date of Patent: August 13, 2024Assignee: CORNING INCORPORATEDInventors: Wei Jiang, Dan Trung Nguyen, Daniel Aloysius Nolan, Aramais Robert Zakharian
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Patent number: 12038611Abstract: A method of making a spot size converter comprising a multi-tip waveguide comprising a first and a second waveguide portions, the method comprising the steps of: coating a multilayer wafer comprising a waveguide material layer with a resist material; exposing the coated resist material to a deep UV beam or an electron beam; developing resist material to form an partial waveguide pattern within the resist material; transferring the partial waveguide pattern to the waveguide material layer, forming an initial waveguide; placing a second layer of resist material over the initial waveguide; patterning a tapered gap region shape in the second layer of resist material by exposing the second layer of resist material to a deep UV beam or an electron beam; and transferring the tapered gap region shape to the waveguide material layer of the initial waveguide to form a tapered gap region inside the initial waveguide.Type: GrantFiled: May 19, 2020Date of Patent: July 16, 2024Assignee: CORNING INCORPORATEDInventors: Wei Jiang, Dan Trung Nguyen, Daniel Aloysius Nolan, Aramais Robert Zakharian
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Publication number: 20240069279Abstract: A binary photonics lattice that includes a waveguide array having a plurality of single mode waveguides disposed in a substrate, the plurality of single mode waveguides including one or more first waveguides having a first V-number V1 and one or more second waveguides having a second V-number V2. The first V-number V1 is smaller than the second V-number V2. The one or more first and second waveguides are arranged in a linear distribution having first and second edge waveguide regions and a binary waveguide region positioned between the first and second edge waveguide regions. The binary waveguide region is a symmetrical binary representation of a decimal number of two or greater. Further, the binary waveguide region includes at least one first waveguide representing a digit 0 of the symmetrical binary representation and/or at least one second waveguide representing a digit 1 of the symmetrical binary representation.Type: ApplicationFiled: September 22, 2020Publication date: February 29, 2024Inventors: Nicholas Francis Borrelli, Dan Trung Nguyen, Daniel Aloysius Nolan
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Publication number: 20240036253Abstract: A hollow-core optical fiber may include a substrate having a tubular shape and an inner surface surrounding a central longitudinal axis of the hollow-core optical fiber; a hollow core extending through the substrate along the central longitudinal axis of the hollow-core optical fiber; and a plurality of cladding elements positioned between the central longitudinal axis of the hollow-core optical fiber and the substrate. Each of the plurality of cladding elements may extend in a direction parallel to the central longitudinal axis of the hollow-core optical fiber. Each of the plurality of cladding elements may include a wound glass sheet configured as a spiral, and each of the plurality of cladding elements may contact an interior surface of the substrate.Type: ApplicationFiled: July 26, 2023Publication date: February 1, 2024Inventors: Paulo Clovis Dainese, JR., Wei Jiang, Ming-Jun Li, Xiaojun Liang, Dan Trung Nguyen, Ilia Andreyevich Nikulin
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Publication number: 20240036250Abstract: A hollow-core optical fiber may include a hollow-core extending along a central longitudinal axis of the hollow-core optical fiber; a substrate; a first cladding positioned between the central longitudinal axis and an inner surface of the substrate, the first cladding surrounding the central longitudinal axis of the hollow-core optical fiber and having a Bragg structure configured to provide a photonic bandgap operable to confine an optical signal with a wavelength ? propagating in the hollow-core of the hollow-core optical fiber; and a second cladding positioned between the central longitudinal axis of the hollow-core optical fiber and the inner surface of the substrate, the second cladding surrounding the central longitudinal axis of the hollow-core optical fiber and including a plurality of cladding elements configured to provide an anti-resonant effect at the wavelength ?, the anti-resonant effect operable to confine the optical signal at the wavelength ? in the hollow-core.Type: ApplicationFiled: July 26, 2023Publication date: February 1, 2024Inventors: Paulo Clovis Dainese, JR., Ming-Jun Li, Xiaojun Liang, Dan Trung Nguyen, Ilia Andreyevich Nikulin
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Publication number: 20240036252Abstract: 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: ApplicationFiled: July 26, 2023Publication date: February 1, 2024Inventors: Paulo Clovis Dainese, JR., Wei Jiang, Ming-Jun Li, Xiaojun Liang, Dan Trung Nguyen, Ilia Andreyevich Nikulin
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Publication number: 20240034664Abstract: A method for producing a hollow-core preform may include rolling a glass sheet to form a rolled-glass structure; and attaching one or more of the rolled-glass structures to an inner surface of an annular support structure to form a hollow-core preform, wherein the inner surface of the annular support structure defines an interior cavity and the one or more of the rolled-glass structures are positioned within the interior cavity. The hollow-core preform may be drawn into a hollow-core optical fiber.Type: ApplicationFiled: July 26, 2023Publication date: February 1, 2024Inventors: Paulo Clovis Dainese, JR., Wei Jiang, Ming-Jun Li, Xiaojun Liang, Dan Trung Nguyen, Ilia Andreyevich Nikulin
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Publication number: 20240036248Abstract: A hollow-core optical fiber may include a hollow core extending along a central longitudinal axis of the fiber; a substrate; a plurality of first cladding elements spaced apart from each other and positioned between the hollow core and the substrate, each of the first cladding elements extending in a direction parallel to the central longitudinal axis of the fiber, each of the first cladding elements including a first capillary; and a plurality of second cladding elements spaced apart from each other and positioned between the hollow core and the substrate, each of the second cladding elements extending in a direction parallel to the central longitudinal axis of the fiber, each of the second cladding elements including a second capillary. Each of the first cladding elements directly contacts the inner surface of the substrate, and none of the second cladding elements directly contacts the inner surface of the substrate.Type: ApplicationFiled: July 24, 2023Publication date: February 1, 2024Inventors: Paulo Clovis Dainese, JR., Wei Jiang, Ming-Jun Li, Xiaojun Liang, Dan Trung Nguyen, Ilia Andreyevich Nikulin
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Publication number: 20230050084Abstract: Generally, disclosed herein are various embodiments of bonding agents for use in adhering optical fibers to ferrules within optical connectors, and the methods for use thereof. The various embodiments of bonding agents described herein may provide desirable properties, such as, but not limited to, high adhesion strength and/or improved performance following environmental aging. Various embodiments of the bonding agents disclosed herein may also have other desirable properties for the process of securing an optical fiber within a ferrule, such as, but not limited to, shortened process cycle time. Embodiments herein address these needs by monitoring the change in refractive index of a photocurable bonding agent at the interface between the photocurable bonding agent and a substrate or optical fiber, which is referred to as “back reflectance.” In particular, the methods described herein utilize back reflectance techniques to cure the photocurable material or bonding agent.Type: ApplicationFiled: August 3, 2022Publication date: February 16, 2023Inventors: Xiaole Cheng, Stephan Lvovich Logunov, Dan Trung Nguyen
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Publication number: 20220260785Abstract: A waveguide comprising: a tapered-width first waveguide portion and second waveguide portions and a third waveguide portion, such that along a first direction, widths of a first and the second waveguide portions gradually increase towards a first end of the third waveguide portion, and a distance, in a second direction, between the first waveguide portion and the second waveguide portion gradually decreases from a second end of the first waveguide portion to the first end of the first waveguide portion, wherein the second direction is perpendicular to the first direction; and the maximum distance Gmax between the second end of the first waveguide portion and a second end of the second waveguide portion is greater than 0.2 ?m and less than 0.48 ?m; and the waveguide has a refractive index between 2 and 4 at a 1550 nm wavelength.Type: ApplicationFiled: May 19, 2020Publication date: August 18, 2022Inventors: Wei Jiang, Dan Trung Nguyen, Daniel Aloysius Nolan, Aramais Robert Zakharian
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Publication number: 20220260784Abstract: A method of making a spot size converter comprising a multi-tip waveguide comprising a first and a second waveguide portions, the method comprising the steps of: coating a multilayer wafer comprising a waveguide material layer with a resist material; exposing the coated resist material to a deep UV beam or an electron beam; developing resist material to form an partial waveguide pattern within the resist material; transferring the partial waveguide pattern to the waveguide material layer, forming an initial waveguide; placing a second layer of resist material over the initial waveguide; patterning a tapered gap region shape in the second layer of resist material by exposing the second layer of resist material to a deep UV beam or an electron beam; and transferring the tapered gap region shape to the waveguide material layer of the initial waveguide to form a tapered gap region inside the initial waveguide.Type: ApplicationFiled: May 19, 2020Publication date: August 18, 2022Inventors: Wei Jiang, Dan Trung Nguyen, Daniel Aloysius Nolan, Aramais Robert Zakharian
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Patent number: 11165508Abstract: A waveguide array that includes a plurality of waveguides disposed in a substrate. The plurality of waveguides include one or more first waveguides that have a first propagation constant and one or more second waveguides that have a second propagation constant, where the first propagation constant differs from the second propagation constant. The one or more first waveguides and the one or more second waveguides are disposed in the substrate in a linear distribution and at least a portion of the linear distribution is arranged based on a quasi-periodic sequence having a plurality of sequence segments. Each sequence segment is determined based on a quasi-periodic function, has an order, and corresponds to an arrangement segment of a first waveguide, a second waveguide, or combinations thereof. The linear distribution includes at least one arrangement segment corresponding with a third-order sequence segment or higher of the quasi-periodic sequence.Type: GrantFiled: July 11, 2019Date of Patent: November 2, 2021Assignee: Corning IncorporatedInventors: Nicholas Francis Borrelli, Dan Trung Nguyen, Daniel Aloysius Nolan
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Patent number: 11137538Abstract: A multicore optical fiber that includes a plurality of waveguiding cores disposed in a cladding. The plurality of cores are situated adjacent to at least one other core with a core center to core center spacing being not larger than 10 times the radius of the average core, such that the greater than 10% of the light will couple from one core to the adjacent core over a propagating distance of 1 cm, along the fiber length so as to provide coupling between the adjacent cores and to enable quantum walk. The plurality waveguiding cores are disposed in the cladding in a ring distribution or at least a portion of the ring distribution.Type: GrantFiled: September 28, 2020Date of Patent: October 5, 2021Assignee: Corning IncorporatedInventors: Nicholas Francis Borrelli, Rostislav Radiyevich Khrapko, Dan Trung Nguyen, Thien An Thi Nguyen, Daniel Aloysius Nolan
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Patent number: 11137539Abstract: A multicore optical fiber that includes a plurality of waveguiding cores disposed in a cladding. The plurality of waveguiding cores include one or more first waveguiding cores that have a first propagation constant and one or more second waveguiding cores that have a second propagation constant, where the first propagation constant differs from the second propagation constant. The one or more first waveguiding cores and the one or more second waveguiding cores are disposed in the cladding in a ring distribution and at least a portion of the ring distribution is arranged based on a quasi-periodic sequence having a plurality of sequence segments. Each sequence segment is determined based on a quasi-periodic function, has an order, and corresponds to an arrangement segment of a first waveguiding cores, a second waveguiding cores, or combinations thereof. The ring distribution includes at least one arrangement segment corresponding with a third-order sequence segment or higher of the quasi-periodic sequence.Type: GrantFiled: September 28, 2020Date of Patent: October 5, 2021Assignee: Corning IncorporatedInventors: Nicholas Francis Borrelli, Rostislav Radiyevich Khrapko, Dan Trung Nguyen, Thien An Thi Nguyen, Daniel Aloysius Nolan
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Publication number: 20210167866Abstract: A waveguide array that includes a plurality of waveguides disposed in a substrate. The plurality of waveguides include one or more first waveguides that have a first propagation constant and one or more second waveguides that have a second propagation constant, where the first propagation constant differs from the second propagation constant. The one or more first waveguides and the one or more second waveguides are disposed in the substrate in a linear distribution and at least a portion of the linear distribution is arranged based on a quasi-periodic sequence having a plurality of sequence segments. Each sequence segment is determined based on a quasi-periodic function, has an order, and corresponds to an arrangement segment of a first waveguide, a second waveguide, or combinations thereof. The linear distribution includes at least one arrangement segment corresponding with a third-order sequence segment or higher of the quasi-periodic sequence.Type: ApplicationFiled: July 11, 2019Publication date: June 3, 2021Inventors: Nicholas Francis Borrelli, Dan Trung Nguyen, Daniel Aloysius Nolan
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Publication number: 20210103090Abstract: A multicore optical fiber that includes a plurality of waveguiding cores disposed in a cladding. The plurality of waveguiding cores include one or more first waveguiding cores that have a first propagation constant and one or more second waveguiding cores that have a second propagation constant, where the first propagation constant differs from the second propagation constant. The one or more first waveguiding cores and the one or more second waveguiding cores are disposed in the cladding in a ring distribution and at least a portion of the ring distribution is arranged based on a quasi-periodic sequence having a plurality of sequence segments. Each sequence segment is determined based on a quasi-periodic function, has an order, and corresponds to an arrangement segment of a first waveguiding cores, a second waveguiding cores, or combinations thereof. The ring distribution includes at least one arrangement segment corresponding with a third-order sequence segment or higher of the quasi-periodic sequence.Type: ApplicationFiled: September 28, 2020Publication date: April 8, 2021Inventors: Nicholas Francis Borrelli, Rostislav Radiyevich Khrapko, Dan Trung Nguyen, Thien An Thi Nguyen, Daniel Aloysius Nolan
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Publication number: 20210103089Abstract: A multicore optical fiber that includes a plurality of waveguiding cores disposed in a cladding. The plurality of cores are situated adjacent to at least one other core with a core center to core center spacing being not larger than 10 times the radius of the average core, such that the greater than 10% of the light will couple from one core to the adjacent core over a propagating distance of 1 cm, along the fiber length so as to provide coupling between the adjacent cores and to enable quantum walk. The plurality waveguiding cores are disposed in the cladding in a ring distribution or at least a portion of the ring distribution.Type: ApplicationFiled: September 28, 2020Publication date: April 8, 2021Inventors: Nicholas Francis Borrelli, Rostislav Radiyevich Khrapko, Dan Trung Nguyen, Thien An Thi Nguyen, Daniel Aloysius Nolan
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Patent number: 9557626Abstract: An optical apparatus comprising: a source and a loop. The source generates a pump. The resonating cavity of the source includes: a gain medium; and a tunable filter for selecting a wavelength. The loop comprises: an input coupler; a waveguide; and an output coupler. The input coupler receives the pump and a signal and outputs the pump and the signal into the waveguide In the waveguide, energy in the pump is transferred into energy in the signal while a relative center position of the signal is crossing a center position of the pump in a first direction while both are passing through the waveguide and into the output coupler. The output coupler r outputs a first portion of the signal and a second portion of the signal is fed into the input coupler as the signal, completing the loop.Type: GrantFiled: June 24, 2016Date of Patent: January 31, 2017Assignees: Canon Kabushiki Kaisha, THE ARIZONA BOARD OF REGENTS ON BEHALF OF THE UNIVERSITY OF ARIZONAInventors: Yukihiro Inoue, Dan Trung Nguyen, Khanh Kieu
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Publication number: 20160377959Abstract: An optical apparatus comprising: a source and a loop. The source generates a pump. The resonating cavity of the source includes: a gain medium; and a tunable filter for selecting a wavelength. The loop comprises: an input coupler; a waveguide; and an output coupler. The input coupler receives the pump and a signal and outputs the pump and the signal into the waveguide In the waveguide, energy in the pump is transferred into energy in the signal while a relative center position of the signal is crossing a center position of the pump in a first direction while both are passing through the waveguide and into the output coupler. The output coupler r outputs a first portion of the signal and a second portion of the signal is fed into the input coupler as the signal, completing the loop.Type: ApplicationFiled: June 24, 2016Publication date: December 29, 2016Inventors: Yukihiro INOUE, Dan Trung NGUYEN, Khanh KIEU