Patents Assigned to Teraxion Inc.
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Patent number: 11681094Abstract: Optical fiber filters and uses thereof are presented. In typical implementations, there is provided a FBG taking deleterious light out of a fiber core without reflecting it into the fiber core. It also allows the unhindered transmission of useful light at a wavelength outside of the spectral band covered by the deleterious light. The filter couples the incoming deleterious light to cladding modes propagating in the opposite direction without coupling the incoming useful light to core or cladding modes propagating in the opposite direction. The filter may for example be useful as a Raman or ASE filter in a laser cavity of other optical devices.Type: GrantFiled: December 3, 2021Date of Patent: June 20, 2023Assignee: TERAXION INC.Inventors: Guillaume Brochu, Michel Morin, François Trépanier
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Patent number: 11349271Abstract: A bulk compressor for use in a chirped pulse amplification system (CPA) comprising a tunable pulse stretcher and an amplifier is provided. The bulk compressor includes a mounting block formed as a monolithic structure and made of solid material. The mounting block may define a plurality of mounting surfaces each forming a collar surrounding a light passage. Optical components are mounted on the mounting block in a fixed mutual spatial relationship, each optical component having a front face having a peripheral portion mounted in direct contact with the collar formed by a respective one of the mounting surfaces. The bulk compressor may be provided as a stand-alone component, a part of a stretcher-compressor pair or a full CPA system, and may be used in a method for amplifying input optical pulses.Type: GrantFiled: December 4, 2018Date of Patent: May 31, 2022Assignee: TERAXION INC.Inventors: François Trépanier, Pascal Deladurantaye, Axel Saumier-Verret, Sylvain Boudreau, René Dionne, Mathieu Demers, Jean-Thomas Landry
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Publication number: 20220091327Abstract: Optical fiber filters and uses thereof are presented. In typical implementations, there is provided a FBG taking deleterious light out of a fiber core without reflecting it into the fiber core. It also allows the unhindered transmission of useful light at a wavelength outside of the spectral band covered by the deleterious light. The filter couples the incoming deleterious light to cladding modes propagating in the opposite direction without coupling the incoming useful light to core or cladding modes propagating in the opposite direction. The filter may for example be useful as a Raman or ASE filter in a laser cavity of other optical devices.Type: ApplicationFiled: December 3, 2021Publication date: March 24, 2022Applicant: TERAXION INC.Inventors: Guillaume BROCHU, Michel MORIN, François TRÉPANIER
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Patent number: 11215749Abstract: Optical fiber filters and uses thereof are presented. In typical implementations, there is provided a FBG taking deleterious light out of a fiber core without reflecting it into the fiber core. It also allows the unhindered transmission of useful light at a wavelength outside of the spectral band covered by the deleterious light. The filter couples the incoming deleterious light to cladding modes propagating in the opposite direction without coupling the incoming useful light to core or cladding modes propagating in the opposite direction. The filter may for example be useful as a Raman or ASE filter in a laser cavity of other optical devices.Type: GrantFiled: May 5, 2020Date of Patent: January 4, 2022Assignee: TERAXION INC.Inventors: Guillaume Brochu, Michel Morin, François Trépanier
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Publication number: 20200333529Abstract: Optical fiber filters and uses thereof are presented. In typical implementations, there is provided a FBG taking deleterious light out of a fiber core without reflecting it into the fiber core. It also allows the unhindered transmission of useful light at a wavelength outside of the spectral band covered by the deleterious light. The filter couples the incoming deleterious light to cladding modes propagating in the opposite direction without coupling the incoming useful light to core or cladding modes propagating in the opposite direction. The filter may for example be useful as a Raman or ASE filter in a laser cavity of other optical devices.Type: ApplicationFiled: May 5, 2020Publication date: October 22, 2020Applicant: TERAXION INC.Inventors: Guillaume BROCHU, Michel Morin, François TRÉPANIER
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Patent number: 10747031Abstract: An optical phase modulation device for modulating a phase of an input light signal at a modulation frequency is provided, which can be used in integrated photonics applications. The device can include an optical phase modulator, for example a thermo-optic phase shifter having an effective refractive index that depends linearly temperature, configured to impart a phase shift to the input light signal, the phase shift varying quadratically in response to an applied modulating electric drive signal. The device can also include a phase modulator driver configured to apply the electric drive signal to the optical phase modulator, the electric drive signal having a time-varying component oscillating at half the modulation frequency and no time-constant component, thereby imparting the phase shift, modulated at the modulation frequency, to the phase of the input light signal to produce a phase-modulated light signal. Optical phase modulation systems and methods are also disclosed.Type: GrantFiled: July 24, 2019Date of Patent: August 18, 2020Assignee: TeraXion Inc.Inventor: André Babin
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Patent number: 10663654Abstract: Optical fiber filters and uses thereof are presented. In typical implementations, there is provided a FBG taking deleterious light out of a fiber core without reflecting it into the fiber core. It also allows the unhindered transmission of useful light at a wavelength outside of the spectral band covered by the deleterious light. The filter couples the incoming deleterious light to cladding modes propagating in the opposite direction without coupling the incoming useful light to core or cladding modes propagating in the opposite direction. The filter may for example be useful as a Raman or ASE filter in a laser cavity of other optical devices.Type: GrantFiled: July 18, 2019Date of Patent: May 26, 2020Assignee: TERAXION INC.Inventors: Guillaume Brochu, Michel Morin, François Trépanier
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Publication number: 20190339446Abstract: Optical fiber filters and uses thereof are presented. In typical implementations, there is provided a FBG taking deleterious light out of a fiber core without reflecting it into the fiber core. It also allows the unhindered transmission of useful light at a wavelength outside of the spectral band covered by the deleterious light. The filter couples the incoming deleterious light to cladding modes propagating in the opposite direction without coupling the incoming useful light to core or cladding modes propagating in the opposite direction. The filter may for example be useful as a Raman or ASE filter in a laser cavity of other optical devices.Type: ApplicationFiled: July 18, 2019Publication date: November 7, 2019Applicant: TERAXION INC.Inventors: Guillaume BROCHU, Michel MORIN, Françios TRÉPANIER
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Patent number: 10393955Abstract: Optical fiber filters and uses thereof are presented. In typical implementations, there is provided a FBG taking deleterious light out of a fiber core without reflecting it into the fiber core. It also allows the unhindered transmission of useful light at a wavelength outside of the spectral band covered by the deleterious light. The filter couples the incoming deleterious light to cladding modes propagating in the opposite direction without coupling the incoming useful light to core or cladding modes propagating in the opposite direction. The filter may for example be useful as a Raman or ASE filter in a laser cavity of other optical devices.Type: GrantFiled: January 26, 2018Date of Patent: August 27, 2019Assignee: TERAXION INC.Inventors: Guillaume Brochu, Michel Morin, François Trépanier
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Publication number: 20180217322Abstract: Optical fiber filters and uses thereof are presented. In typical implementations, there is provided a FBG taking deleterious light out of a fiber core without reflecting it into the fiber core. It also allows the unhindered transmission of useful light at a wavelength outside of the spectral band covered by the deleterious light. The filter couples the incoming deleterious light to cladding modes propagating in the opposite direction without coupling the incoming useful light to core or cladding modes propagating in the opposite direction. The filter may for example be useful as a Raman or ASE filter in a laser cavity of other optical devices.Type: ApplicationFiled: January 26, 2018Publication date: August 2, 2018Applicant: TERAXION INC.Inventors: Guillaume Brochu, Michel Morin, François Trépanier
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Patent number: 9477036Abstract: A post-assembly wavelength-tuning method for an optical filter provided along an optical fiber mounted under tension in a packaging assembly is provided. The packaging assembly includes at least one packaging component mechanically coupled to the optical fiber and optically accessible from outside of the packaging assembly. The method includes a step of measuring a post-assembly spectral response of the optical filter and determining therefrom a spectral deviation with respect to a target spectral response. The method also includes a step of forming one or more laser-welded zones on the packaging component so as to cause a permanent deformation thereof. The permanent deformation induces a modification in length of the optical fiber, thereby changing the post-assembly spectral response of the optical filter to compensate for the measured spectral deviation.Type: GrantFiled: May 21, 2015Date of Patent: October 25, 2016Assignee: TERAXION INC.Inventor: François Pelletier
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Patent number: 9244327Abstract: Mach-Zehnder optical modulators and IQ modulators based on a series push-pull travelling wave electrode are provided. The modulator includes a conductive backplane providing an electrical signal path. One or more voltage control taps are electrically connected to the conductive backplane within an area underneath the travelling wave electrode and provide an equalizing DC control voltage to the conductive backplane. In other variants, a plurality of conductive backplane segments are provided, and at least one voltage control tap is electrically connected to each conductive backplane segment within an area underneath the travelling wave electrode and provides a DC control voltage to the corresponding conductive backplane segment.Type: GrantFiled: April 28, 2014Date of Patent: January 26, 2016Assignee: TERAXION INC.Inventor: Kelvin Prosyk
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Patent number: 9182546Abstract: A monolithic optoelectronic device has a spot-size converter optically connected to a waveguide. The overclad extending over the core of the waveguide is thinner and more highly doped that the overclad of the spot-size converter. This structure can be made by applying a process of selective etching and enhanced regrowth to create selective regions of the overclad of different thickness or doping.Type: GrantFiled: December 15, 2009Date of Patent: November 10, 2015Assignees: Fraunhofer-Gesellschaft Zur Forderung Der Angewandten Forschung E.V., Teraxion Inc.Inventors: Kelvin Prosyk, Ronald Kaiser, Karl-Otto Velthaus
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Publication number: 20150286108Abstract: Mach-Zehnder optical modulators and IQ modulators based on a series push-pull travelling wave electrode are provided. The modulator includes a conductive backplane providing an electrical signal path. One or more voltage control taps are electrically connected to the conductive backplane within an area underneath the travelling wave electrode and provide an equalizing DC control voltage to the conductive backplane. In other variants, a plurality of conductive backplane segments are provided, and at least one voltage control tap is electrically connected to each conductive backplane segment within an area underneath the travelling wave electrode and provides a DC control voltage to the corresponding conductive backplane segment.Type: ApplicationFiled: April 28, 2014Publication date: October 8, 2015Applicant: TERAXION INC.Inventor: Kelvin PROSYK
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Patent number: 9069223Abstract: A Mach-Zehnder optical modulator with a series push-pull traveling wave electrode uses a balanced coplanar stripline with lateral ground planes. Two signal electrodes extend along the center of the optical modulator adjacent and parallel to the optical waveguides in a series push-pull configuration. The ground planes run parallel to the signal electrodes, but are spaced laterally outward from the signal electrodes.Type: GrantFiled: February 14, 2013Date of Patent: June 30, 2015Assignee: TERAXION INC.Inventor: Kelvin Prosyk
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Patent number: 9008469Abstract: A Mach-Zehnder optical modulator with a travelling wave electrode has a signal transmission line conductor (S) carrying an input electrical signal, and two ground transmission line conductors (G1 and G2) providing a return path for the electrical signal. The signal transmission line conductor is positioned between the first and second ground lines, and the first and second optical waveguide branches are positioned between the signal transmission line conductor and the first ground line. The modulator therefore has a GSG structure providing an asymmetrically-loaded configuration.Type: GrantFiled: November 8, 2013Date of Patent: April 14, 2015Assignee: Teraxion Inc.Inventor: Kelvin Prosyk
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Publication number: 20150036965Abstract: A Mach-Zehnder optical modulator is provide and has a travelling wave electrode extending over two optical waveguide branches and modulating the relative phase of the optical beam components propagating in those branches. The travelling wave electrode has transmission line conductors and pairs of waveguide electrodes, the waveguide electrodes of each pair being coupled to one of the optical waveguide branches, respectively. The travelling wave electrode further includes active devices having a high impedance input electrically connected to one of the transmission line conductors and a low impedance output electrically connected to one of the waveguide electrodes. Each active device transfers the electrical modulation signal from the associated transmission line conductor onto the associated waveguide electrode according to a voltage transfer function.Type: ApplicationFiled: July 28, 2014Publication date: February 5, 2015Applicant: TERAXION INC.Inventors: Kelvin PROSYK, Andre HAGLEY
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Patent number: 8948549Abstract: A polarization rotator assembly for rotating a polarization mode of an electromagnetic signal is provided. The polarization rotator assembly has a waveguiding structure of co-extensive first and second layers defining, successively, an input portion, a subwavelength composite portion and a polarization rotating portion. The subwavelength composite portion is formed by the first and second layers, where the second layer defines a subwavelength pattern. The polarization rotator portion is geometrically configured to rotate the polarization mode of the electromagnetic signal.Type: GrantFiled: November 27, 2013Date of Patent: February 3, 2015Assignee: Teraxion Inc.Inventors: Marie-Josée Picard, Yves Painchaud
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Patent number: 8917958Abstract: An electrical waveguide transmission device accepts a differential electrical input signal (e.g., S+ and S?) propagating along two separate signal conductors with grounded electrical return paths, and outputs the differential input signal to a series push-pull traveling wave electrode Mach-Zehnder optical modulator over a pair of output conductors that act as a return path for each other and provide a desired characteristic impedance matching that of the Mach-Zehnder optical modulator.Type: GrantFiled: December 20, 2012Date of Patent: December 23, 2014Assignee: Teraxion Inc.Inventor: Kelvin Prosyk
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Patent number: 8903202Abstract: A Mach-Zehnder optical modulator with a travelling wave electrode having one or more signal transmission line conductors and one or more ground transmission line conductors is provided. The modulator includes a ground strip conductor extending substantially in parallel to the ground transmission line conductors, and a distributed bridging structure electrically connecting the ground strip conductor and at least one of the ground transmission line conductors along a substantial portion of a length thereof. The distributed bridging structure may be embodied by a plurality of electrical connections at disposed regularly spaced intervals.Type: GrantFiled: November 15, 2013Date of Patent: December 2, 2014Assignee: Teraxion Inc.Inventors: Kelvin Prosyk, Ian Nicholas Woods