Patents by Inventor Martin H. Muendel
Martin H. Muendel 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: 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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Publication number: 20210231872Abstract: An optical fiber endcap device may include an input facet spliced onto an input fiber and an output end through which counterpropagating light enters the optical fiber endcap device. The optical fiber endcap device further includes a plurality of angled facets that are arranged at respective angles relative to an axis of the optical fiber endcap device to reflect at least a portion of the counterpropagating light back through the output end of the optical fiber endcap device.Type: ApplicationFiled: April 3, 2020Publication date: July 29, 2021Inventors: Martin H. MUENDEL, Richard D. FAULHABER, Michael LOVELADY
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Publication number: 20210223467Abstract: An optical device may include a fiber to provide a beam. The optical device may include a graded-index element to expand or magnify the beam. An input facet of the graded-index element may be adhered to an output facet of the fiber. The optical device may include an optical transformation element to transform the beam after the beam is expanded or magnified by the graded-index element. An input facet of the optical transformation element may be adhered to an output facet of the graded-index element.Type: ApplicationFiled: April 20, 2020Publication date: July 22, 2021Inventors: Patrick GREGG, Martin H. MUENDEL, Richard D. FAULHABER
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Publication number: 20210208349Abstract: An optical fiber heat exchanger includes an outer body and an inner body inserted into the outer body. The inner body includes a plurality of guide walls to guide a cooling liquid through the optical fiber heat exchanger to exchange heat from an optical fiber inserted in the optical fiber heat exchanger, a first set of parallel straight channels, extending along an inlet portion of the inner body, formed by a first subset of the plurality of guide walls, a set of U-shaped channels, extending through a transition section of the inner body, formed by a second subset of the plurality of guide walls, and a second set of parallel straight channels, extending along an outlet portion of the inner body, formed by a third subset of the plurality of guide walls.Type: ApplicationFiled: March 23, 2021Publication date: July 8, 2021Inventors: Yiduo ZHANG, Gilberto MADRID, Titus WHITEHEAD, Martin H. MUENDEL
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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: 10962727Abstract: An optical fiber heat exchanger includes an outer body and an inner body inserted into the outer body. The inner body includes a plurality of guide walls to guide a cooling liquid through the optical fiber heat exchanger to exchange heat from an optical fiber inserted in the optical fiber heat exchanger, a first set of parallel straight channels, extending along an inlet portion of the inner body, formed by a first subset of the plurality of guide walls, a set of U-shaped channels, extending through a transition section of the inner body, formed by a second subset of the plurality of guide walls, and a second set of parallel straight channels, extending along an outlet portion of the inner body, formed by a third subset of the plurality of guide walls.Type: GrantFiled: November 19, 2019Date of Patent: March 30, 2021Assignee: Lumentum Operations LLCInventors: Yiduo Zhang, Gilberto Madrid, Titus Whitehead, Martin H. Muendel
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Publication number: 20200412077Abstract: An optical assembly provides dispersion control, modelocking, spectral filtering, and/or the like in a laser cavity. For example, the optical assembly may comprise a diffraction grating pair arranged to temporally and spatially disperse a beam on a forward pass through the optical assembly, a reflective device at an end of the optical assembly, and a focusing optic arranged to create a beam waist at the reflective device. The beam waist created at the reflective device may cause the beam to be inverted on a reverse pass through the optical assembly, and a temporal dispersion and a spatial dispersion of the beam may be doubled on the reverse pass through the optical assembly to form a temporally and spatially dispersed output from the optical assembly.Type: ApplicationFiled: November 22, 2019Publication date: December 31, 2020Inventors: Simonette PIERROT, Martin H. MUENDEL
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Publication number: 20200412081Abstract: A pulse stretching fiber oscillator (or laser cavity) may comprise a chirped fiber Bragg grating (CFBG) and an optical circulator arranged such that a first portion of a beam that is transmitted through the CFBG continues to propagate through the laser cavity while a second portion of the beam that is reflected from the CFBG is stretched and chirped by the CFBG and directed out of the laser cavity by the optical circulator. Accordingly, a configuration of the CFBG and the optical circulator in the laser cavity may enable pulse stretching contemporaneous with outcoupling, which may prevent deleterious nonlinear phase from accumulating prior to stretching.Type: ApplicationFiled: November 25, 2019Publication date: December 31, 2020Inventors: Martin H. MUENDEL, Simonette PIERROT
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Publication number: 20200400966Abstract: An optical device may include a polarization splitter to split a unidirectional rotary optical beam into a first rotary optical beam having a first polarization state and a second rotary optical beam having a second polarization state. The unidirectional rotary optical beam and the second rotary optical beam may have optical power with a first direction of spatial rotation. The optical device may include a reflective element to reverse a parity of the first rotary optical beam in association with causing optical power of the first rotary optical beam to have a second direction of spatial rotation. The optical device may include a polarization combiner to, after reversal of the parity of the first rotary optical beam, combine the first rotary optical beam and the second rotary optical beam to create a bi-directional rotary optical beam having the first polarization state and the second polarization state.Type: ApplicationFiled: October 3, 2019Publication date: December 24, 2020Inventors: Martin H. MUENDEL, Patrick GREGG
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Publication number: 20200326493Abstract: An optical fiber heat exchanger includes an outer body and an inner body inserted into the outer body. The inner body includes a plurality of guide walls to guide a cooling liquid through the optical fiber heat exchanger to exchange heat from an optical fiber inserted in the optical fiber heat exchanger, a first set of parallel straight channels, extending along an inlet portion of the inner body, formed by a first subset of the plurality of guide walls, a set of U-shaped channels, extending through a transition section of the inner body, formed by a second subset of the plurality of guide walls, and a second set of parallel straight channels, extending along an outlet portion of the inner body, formed by a third subset of the plurality of guide walls.Type: ApplicationFiled: November 19, 2019Publication date: October 15, 2020Inventors: Yiduo ZHANG, Gilberto MADRID, Titus WHITEHEAD, Martin H. MUENDEL
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Patent number: 10802209Abstract: A cladding light stripper may include a double-clad optical fiber having a core for guiding signal light, an inner cladding surrounding the core, and an outer cladding surrounding the inner cladding. The optical fiber may include a stripped portion forming an exposed section. The exposed section may include a plurality of spirally-arranged transversal notches disposed along the optical fiber to enable light to escape the inner cladding upon impinging on the plurality of notches. A circumferential segment of the optical fiber may include a single notch of the plurality of notches. Each of the plurality of notches may have a depth of only a partial distance to the core.Type: GrantFiled: August 25, 2017Date of Patent: October 13, 2020Assignee: Lumentum Operations LLCInventors: Zong Kwei Wu, Kwang Chong, Martin H. Muendel
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Publication number: 20200284986Abstract: An optical fiber device may include an optical waveguide to guide a laser output from a first end of the optical waveguide to a second end of the optical waveguide. The optical fiber device may include a fiber telescope optically coupled to the second end of the optical waveguide to modify the laser output. The fiber telescope may include a first graded-index optical element, a first facet of the first graded-index optical element being fused to the second end of the optical waveguide; and a second graded-index optical element, a first facet of the second graded-index optical element being fused to a second facet of the first graded-index optical element.Type: ApplicationFiled: September 30, 2019Publication date: September 10, 2020Inventors: Richard D. FAULHABER, Martin H. MUENDEL
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Publication number: 20200209468Abstract: An optical fiber may comprise a core doped with one or more active ions to guide signal light from an input end of the optical fiber to an output end of the optical fiber, a cladding surrounding the core to guide pump light from the input end of the optical fiber to the output end of the optical fiber, and one or more inserts formed in the cladding surrounding the core. Each of the one or more inserts may have a geometry (e.g., a cross-sectional size, a helical pitch, and/or the like) that varies along a longitudinal length of the optical fiber, which may cause an absorption of the pump light to be modulated along the longitudinal length of the optical fiber.Type: ApplicationFiled: October 18, 2019Publication date: July 2, 2020Inventors: Vincent PETIT, Martin H. MUENDEL
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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
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Publication number: 20200110276Abstract: 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: ApplicationFiled: December 4, 2019Publication date: April 9, 2020Inventors: Martin H. MUENDEL, Richard D. FAULHABER, James J. MOREHEAD, Vincent PETIT, Patrick GREGG
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Patent number: 10603744Abstract: A method of manufacturing a side-coupling structure, associated with coupling an aiming beam from an aiming beam fiber into a laser beam fiber, may include removing a coating from a section of the laser beam fiber and removing a coating from a section of the aiming beam fiber. The method may further include bringing the section of the aiming beam fiber in physical contact with the section of the laser beam fiber in order to create the side-coupling structure. The method may further include recoating the section of the laser beam fiber and the section of the aiming beam fiber in order to coat the side-coupling structure.Type: GrantFiled: December 7, 2018Date of Patent: March 31, 2020Assignee: Lumentum Operations LLCInventors: Changgeng Ye, Hongbo Yu, Martin H. Muendel