Patents by Inventor James J. Morehead
James J. Morehead 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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Publication number: 20240097406Abstract: In some implementations, a laser diode array may comprise a cavity that includes a rear facet and a front facet and multiple emitters that are transversely single mode and disposed within the cavity. In some implementations, the multiple emitters each include a seeding section having a constant emitter width that is single mode at the rear facet and a flared section having a monotonically expanding emitter width that increases adiabatically over a majority of a length of the cavity such that outputs from the multiple emitters are single mode at the front facet. In some implementations, the emitter width is less than twenty micrometers at the front facet.Type: ApplicationFiled: December 15, 2022Publication date: March 21, 2024Inventors: Martin H. MUENDEL, Matthew Glenn PETERS, James J. MOREHEAD, John G. BAI, Victor ROSSIN
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Patent number: 11619788Abstract: In some implementations, a fiber optic combiner may comprise an enclosing tube having a geometric shape and multiple optical fibers bundled within the enclosing tube. In some implementations, the multiple fibers comprise at least one optical fiber having a core and a non-circular cladding surrounding the core. The non-circular cladding may cause the multiple optical fibers to have a larger tube fill factor and a lower expected beam parameter product increase factor relative to the multiple optical fibers all having circular claddings.Type: GrantFiled: June 29, 2021Date of Patent: April 4, 2023Assignee: Lumentum Operations LLCInventors: Martin H. Muendel, Patrick Gregg, Richard D. Faulhaber, Jeff Gregg, James J. Morehead
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Patent number: 11592612Abstract: In some implementations, a waveguide may comprise an inner core to receive a first beam and an outer core surrounding the inner core to receive a second beam that is displaced from the first beam by an offset. The outer core may comprise a beam guiding region that rotationally expands over a length of the waveguide into an annulus that concentrically surrounds the inner core or a partial annulus that partially surrounds the inner core. For example, the beam guiding region may be defined by one or more low refractive index features that have a varied orientation and/or a varied shape over the length of the waveguide such that the second beam enters the waveguide as an offset beam and exits from the waveguide as a ring-shaped beam or a partial ring-shaped beam.Type: GrantFiled: March 2, 2021Date of Patent: February 28, 2023Assignee: Lumentum Operations LLCInventors: Patrick Gregg, Martin H. Muendel, Richard D. Faulhaber, James J. Morehead, Jeff Gregg
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Publication number: 20230008662Abstract: In some implementations, an optical fiber may include a core and a cladding surrounding the core. The core and the cladding may provide light guidance along the optical fiber in a light propagation direction. The core may have a taper in the light propagation direction in a section of the optical fiber. A diameter of the core may decrease independently of a diameter of the cladding in the section of the optical fiber.Type: ApplicationFiled: September 10, 2021Publication date: January 12, 2023Inventors: Richard D. FAULHABER, Martin H. MUENDEL, Patrick GREGG, James J. MOREHEAD
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Patent number: 11502477Abstract: An optical fiber may include a core in which core-guided light generated by one or more light sources propagates along a length of the at least one optical fiber, one or more claddings, surrounding the core, to guide cladding-guided light generated by the one or more light sources along the length of the at least one optical fiber, and a reflector structure machined into the at least one optical fiber. The reflector structure may include multiple angled facets arranged at one or more respective angles relative to an axis of the optical fiber to reflect at least a portion of the core-guided light and/or the cladding-guided light passing through the optical fiber.Type: GrantFiled: May 18, 2020Date of Patent: November 15, 2022Assignee: Lumentum Operations LLCInventors: Martin H. Muendel, Richard D. Faulhaber, Michael Lovelady, James J. Morehead, Andreas Oehler
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Publication number: 20220344910Abstract: In some implementations, an optical device (e.g., a monolithic master oscillator power amplifier (MOPA) diode) may include a first facet, one or more gratings, an amplifier structure terminated with a second facet, and an oscillator array that includes multiple singlemode oscillators coupled to the first facet and to the one or more gratings. In some implementations, the multiple singlemode oscillators may be configured to generate multiple seed beams and to transmit the multiple seed beams into the amplifier structure through the one or more gratings.Type: ApplicationFiled: July 8, 2021Publication date: October 27, 2022Inventors: Martin H. MUENDEL, Victor ROSSIN, James J. MOREHEAD, John G. BAI
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Publication number: 20220334327Abstract: In some implementations, a fiber optic combiner may comprise an enclosing tube having a geometric shape and multiple optical fibers bundled within the enclosing tube. In some implementations, the multiple fibers comprise at least one optical fiber having a core and a non-circular cladding surrounding the core. The non-circular cladding may cause the multiple optical fibers to have a larger tube fill factor and a lower expected beam parameter product increase factor relative to the multiple optical fibers all having circular claddings.Type: ApplicationFiled: June 29, 2021Publication date: October 20, 2022Inventors: Martin H. MUENDEL, Patrick GREGG, Richard D. FAULHABER, Jeff GREGG, James J. MOREHEAD
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Publication number: 20220209486Abstract: In some implementations, a waveguide may comprise an inner core to receive a first beam and an outer core surrounding the inner core to receive a second beam that is displaced from the first beam by an offset. The outer core may comprise a beam guiding region that rotationally expands over a length of the waveguide into an annulus that concentrically surrounds the inner core or a partial annulus that partially surrounds the inner core. For example, the beam guiding region may be defined by one or more low refractive index features that have a varied orientation and/or a varied shape over the length of the waveguide such that the second beam enters the waveguide as an offset beam and exits from the waveguide as a ring-shaped beam or a partial ring-shaped beam.Type: ApplicationFiled: March 2, 2021Publication date: June 30, 2022Inventors: Patrick GREGG, Martin H. MUENDEL, Richard D. FAULHABER, James J. MOREHEAD, Jeff GREGG
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Patent number: 11347069Abstract: An optical fiber device may include a core including a primary section and a secondary section. The secondary section may include at least one insert element inserted within the primary section at an off-center location with respect to a center of the primary section. The secondary section may twist about an axis of the optical fiber device along a length of the optical fiber device. A rate of twist at which the secondary section twists about the axis may increase from a first end of the optical fiber device toward a second end of the optical fiber device. The secondary section being twisted about the axis may cause an optical beam, launched at the first end of the optical fiber device, to be at least partially converted to a rotary optical beam at the second end of the optical fiber device.Type: GrantFiled: December 4, 2019Date of Patent: May 31, 2022Assignee: Lumentum Operations LLCInventors: Martin H. Muendel, Richard D. Faulhaber, James J. Morehead, Vincent Petit, Patrick Gregg
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Patent number: 11340467Abstract: An optical fiber may include a first core, a second core, and a cladding surrounding the first core and the second core. The second core may be at an off-center location with respect to a center of the optical fiber, or the second core may include an azimuthally nonuniform section at the off-center location. The second core may twist about an axis of the optical fiber along a length of the optical fiber, and the second core being twisted about the axis may cause an optical beam, launched into the second core at a first end of the optical fiber, to be at least partially converted to a rotary optical beam at a second end of the optical fiber.Type: GrantFiled: April 28, 2020Date of Patent: May 24, 2022Assignee: Lumentum Operations LLCInventors: Patrick Gregg, Richard D. Faulhaber, Martin H. Muendel, Vincent Petit, James J. Morehead
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Patent number: 11336071Abstract: A device may determine at least one metric related to a plurality of laser pulses associated with a Q-switched laser. The device may determine a statistical metric for the at least one metric related to the plurality of laser pulses. The device may determine that the statistical metric satisfies a threshold level of deviation of the at least one metric related to the plurality of laser pulses from a baseline value for the at least one metric. The device may indicate laser degradation of the Q-switched laser based on determining that the statistical metric satisfies the threshold.Type: GrantFiled: October 16, 2018Date of Patent: May 17, 2022Assignee: Lumentum Operations LLCInventors: Tobyn VanVeghten, Joseph J. Alonis, James J. Morehead, Loren A. Eyres
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Patent number: 11243364Abstract: A graded index fiber having a refractive index profile that causes a beam to be re-imaged in the graded index fiber with a regular period may include a set of bends that have a bend period matched to or nearly matched to a pitch of the graded index fiber. For example, the set of bends may be formed in the graded index fiber using one or more bending devices that include one or more protrusions that have a periodicity matched to or nearly matched to a pitch of the graded index fiber. A first section of the one or more bending devices may be actuated to move towards a second section of the one or more bending devices such that the one or more protrusions cause the bends to be formed in the graded index fiber.Type: GrantFiled: August 3, 2020Date of Patent: February 8, 2022Assignee: Lumentum Operations LLCInventors: Martin H. Muendel, Patrick Gregg, Richard D. Faulhaber, James J. Morehead, Alex Hatcher
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Publication number: 20210373261Abstract: A graded index fiber having a refractive index profile that causes a beam to be re-imaged in the graded index fiber with a regular period may include a set of bends that have a bend period matched to or nearly matched to a pitch of the graded index fiber. For example, the set of bends may be formed in the graded index fiber using one or more bending devices that include one or more protrusions that have a periodicity matched to or nearly matched to a pitch of the graded index fiber. A first section of the one or more bending devices may be actuated to move towards a second section of the one or more bending devices such that the one or more protrusions cause the bends to be formed in the graded index fiber.Type: ApplicationFiled: August 3, 2020Publication date: December 2, 2021Inventors: Martin H. MUENDEL, Patrick GREGG, Richard D. FAULHABER, James J. MOREHEAD, Alex HATCHER
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Publication number: 20210265801Abstract: An optical fiber may include a core in which core-guided light generated by one or more light sources propagates along a length of the at least one optical fiber, one or more claddings, surrounding the core, to guide cladding-guided light generated by the one or more light sources along the length of the at least one optical fiber, and a reflector structure machined into the at least one optical fiber. The reflector structure may include multiple angled facets arranged at one or more respective angles relative to an axis of the optical fiber to reflect at least a portion of the core-guided light and/or the cladding-guided light passing through the optical fiber.Type: ApplicationFiled: May 18, 2020Publication date: August 26, 2021Inventors: Martin H. MUENDEL, Richard D. FAULHABER, Michael LOVELADY, James J. MOREHEAD, Andreas OEHLER
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Publication number: 20210255469Abstract: An optical fiber may include a first core, a second core, and a cladding surrounding the first core and the second core. The second core may be at an off-center location with respect to a center of the optical fiber, or the second core may include an azimuthally nonuniform section at the off-center location. The second core may twist about an axis of the optical fiber along a length of the optical fiber, and the second core being twisted about the axis may cause an optical beam, launched into the second core at a first end of the optical fiber, to be at least partially converted to a rotary optical beam at a second end of the optical fiber.Type: ApplicationFiled: April 28, 2020Publication date: August 19, 2021Inventors: Patrick GREGG, Richard D. FAULHABER, Martin H. MUENDEL, Vincent PETIT, James J. MOREHEAD
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Patent number: 11029467Abstract: A method may include performing an active alignment to enable optical coupling between a first optical fiber and a second optical fiber via an imaging structure. An end of the first optical fiber may be at a first location on a first surface of the imaging structure. The first location may be a first transverse offset distance from an axis of the imaging structure. An end of the second optical fiber may be at a second location of the first surface of the imaging structure. The second location may be a second transverse offset distance from the axis of the imaging structure. The method may include fusion splicing the end of the first optical fiber at the first location on the first surface of the imaging structure, and fusion splicing the end of the second optical fiber at the second location on the first surface of the imaging structure.Type: GrantFiled: September 30, 2019Date of Patent: June 8, 2021Assignee: Lumentum Operations LLCInventors: Martin H. Muendel, Richard D. Faulhaber, James Lefort, James J. Morehead, Vincent Petit, Simonette Pierrot, Kyle R. Schneider
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Patent number: 10690854Abstract: An optical fiber device may include a unitary core including a primary section and a secondary section, wherein at least a portion of the secondary section is offset from a center of the unitary core, wherein the unitary core twists about an optical axis of the optical fiber device along a length of the optical fiber device, and wherein a refractive index of the primary section is greater than a refractive index of the secondary section; and a cladding surrounding the unitary core.Type: GrantFiled: September 25, 2019Date of Patent: June 23, 2020Assignee: Lumentum Operations LLCInventors: Martin H. Muendel, James J. Morehead
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Patent number: 10690855Abstract: A device may splice, at a target splice point, a first end of a twisted fiber having a non-concentric core to an input end of a target fiber having a concentric core to form a spliced fiber wherein the concentric core of the target fiber and the non-concentric core of the twisted fiber have a particular offset at the target splice point. The device may taper at least a portion of the twisted fiber to form a tapered region of the spliced fiber and such that the particular offset at the target splice point corresponds to a pre-configured core offset wherein the target splice point is within the tapered region of the spliced fiber.Type: GrantFiled: September 17, 2019Date of Patent: June 23, 2020Assignee: Lumentum Operations LLCInventors: Patrick Gregg, Richard D. Faulhaber, James J. Morehead, Vincent Petit, Martin H. Muendel
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Patent number: 10656334Abstract: An optical fiber device may include a unitary core including a primary section and a secondary section, wherein at least a portion of the secondary section is offset from a center of the unitary core, wherein the unitary core twists about an axis of the optical fiber device along a length of the optical fiber device, and wherein a refractive index of the primary section is greater than a refractive index of the secondary section; and a cladding surrounding the unitary core.Type: GrantFiled: June 28, 2019Date of Patent: May 19, 2020Assignee: Lumentum Operations LLCInventors: Martin H. Muendel, James J. Morehead, Vincent Petit, Richard D. Faulhaber
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Publication number: 20200116935Abstract: A method may include performing an active alignment to enable optical coupling between a first optical fiber and a second optical fiber via an imaging structure. An end of the first optical fiber may be at a first location on a first surface of the imaging structure. The first location may be a first transverse offset distance from an axis of the imaging structure. An end of the second optical fiber may be at a second location of the first surface of the imaging structure. The second location may be a second transverse offset distance from the axis of the imaging structure. The method may include fusion splicing the end of the first optical fiber at the first location on the first surface of the imaging structure, and fusion splicing the end of the second optical fiber at the second location on the first surface of the imaging structure.Type: ApplicationFiled: September 30, 2019Publication date: April 16, 2020Inventors: Martin H. MUENDEL, Richard D. FAULHABER, James LEFORT, James J. MOREHEAD, Vincent PETIT, Simonette PIERROT, Kyle R. SCHNEIDER