Patents Assigned to Photonics Corporation
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Patent number: 11307365Abstract: A delivery system extends from a laser radiation source for connecting to a medical device that utilizes the laser radiation for medical treatment. The delivery system comprises an optical fiber connecting to a male launch connecter. The male launch connector having a body portion with the optical fiber fixed or constrained therein and the optical fiber terminating at a male ferrule with a forward directed fiber facet, the male ferrule may be compliantly supported and positioned by elastomeric material positioned between the male ferrule and the body portion. The launch connector engages a receiving connector first with mechanical connection portions and then more finely aligning optical connection portions by the male ferrule self aligning in a female ferrule with cooperating tapered surfaces. The male portion may fully seat in the female portion with cooperating cylindrical surfaces.Type: GrantFiled: May 26, 2020Date of Patent: April 19, 2022Assignee: IPG Photonics CorporationInventors: Gregory Altshuler, Christopher Gaal, Valery Kozlov
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Patent number: 11289871Abstract: A CW laser with a rotating ring gain element is disclosed. The ring is pumped at multiple locations and the laser generates a mid-IR output. Multiple pumped gain portions of the ring provide a power scaled output. The gain portions may be positioned in a single resonator cavity, in multiple resonator cavities, and in MOPA architectures with associated focusing, folding, and combining optical elements.Type: GrantFiled: February 10, 2017Date of Patent: March 29, 2022Assignee: IPG PHOTONICS CORPORATIONInventor: Igor Moskalev
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Publication number: 20220077932Abstract: An optical communication system is disclosed. The optical communication system may include a first fiber pump laser system having a first single mode (SM) fiber output configured to output a first pump laser radiation, a second fiber pump laser system having a second SM fiber output configured to output a second pump laser radiation, at least one combiner-splitter element configured to combine the first pump laser radiation and the second pump laser radiation and to transmit N portions of pump laser radiation, and N doped fiber amplifiers, where N is at least four, each doped fiber amplifier configured to receive one portion of the N portions of pump laser radiation and an input optical signal to be amplified, amplify the input optical signal into an amplified optical signal, and to transmit the amplified optical signal.Type: ApplicationFiled: December 20, 2019Publication date: March 10, 2022Applicant: IPG PHOTONICS CORPORATIONInventors: Ekatarina GOLOVCHENKO, Cristiano MORNATTA, Stephen G. EVANGELIDES, Jr., Sergio Walter GRASSI
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Patent number: 11239116Abstract: Laser lift off systems and methods may be used to provide monolithic laser lift off with minimal cracking by reducing the size of one or more beam spots in one or more dimensions to reduce plume pressure while maintaining sufficient energy to provide separation. By irradiating irradiation zones with various shapes and in various patterns, the laser lift off systems and methods use laser energy more efficiently, reduce cracking when separating layers, and improve productivity. Some laser lift off systems and methods described herein separate layers of material by irradiating non-contiguous irradiation zones with laser lift off zones (LOZs) that extend beyond the irradiation zones. Other laser lift off systems and methods described herein separate layers of material by shaping the irradiation zones and by controlling the overlap of the irradiation zones in a way that avoids uneven exposure of the workpiece.Type: GrantFiled: May 21, 2019Date of Patent: February 1, 2022Assignee: IPG PHOTONICS CORPORATIONInventors: Jeffrey P. Sercel, Marco Mendes, Jie Fu
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Patent number: 11203084Abstract: Laser processing systems and methods image a multiple core array to a work surface in a multiple processing beam array. An optical system separates processing beams and converges the beams toward the work surface and focuses each beam of the array at or near the work surface. A central axis with access for filler material flow to the work surface is provided. The processing beam array and central filler material feed provide omni-directional additive laser processing capability.Type: GrantFiled: January 5, 2018Date of Patent: December 21, 2021Assignee: IPG PHOTONICS CORPORATIONInventors: Mustafa Coskun, Felix Stukalin, Jonathan S. Ehrmann
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Patent number: 11152759Abstract: A heatable element is configured to apply sufficient energy density to contaminants in an internal ambient atmosphere with in a sealable housing to drive a reaction that inactivates the contaminants.Type: GrantFiled: December 21, 2017Date of Patent: October 19, 2021Assignee: IPG PHOTONICS CORPORATIONInventors: Damon A. Wheeler, Thomas R. Myers, Mark W. Byer, Jeffrey D. Kmetec, Brian R. Rankin, Cory Bowman
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Patent number: 11141815Abstract: Laser processing systems and methods are capable of moving a laser beam while maintaining consistent laser beam characteristics at processing locations. The laser processing systems generate a collimated laser beam having a consistent Z axis power density along at least a portion of a length of the laser beam and dither the collimated laser beam along one of the X and Y axes. The dithering of the collimated laser beam facilitates consistent laser processing on a three-dimensional surface, for example, to provide consistent deposition of a coating in a laser cladding process. A laser processing system may include a beam delivery system that provides both the collimation and the dithering of the collimated laser as well as an adjustment of the beam diameter of the collimated beam.Type: GrantFiled: September 24, 2014Date of Patent: October 12, 2021Assignee: IPG PHOTONICS CORPORATIONInventors: Joseph Leo Dallarosa, Ben Amar, David Squires
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Publication number: 20210265799Abstract: An active waveguide including active and passive rods which have respective polymeric claddings mechanically and optically coupled to one another so as to define a side pumping scheme. One or a plurality of elements are embedded in one of or both active and passive rods and have a refractive index lower than the lowest of refractive indices of the respective active and passive rods at least 1*10?3. The MM core of the active rod includes inner and outer concentric regions with a concentration of light emitters in the outer region being lower than that of the inner region at more than 50% and, a radius of the inner region being at most 92% of that of the outer region. The unabsorbed pump light at the output of the active waveguide constitutes less than 1% of the delivered pump light which in combination with the refractive index of the embedded elements and selectively doped core regions contribute to laser efficiency of at least 86%.Type: ApplicationFiled: June 28, 2019Publication date: August 26, 2021Applicant: IPG PHOTONICS CORPORATIONInventors: Eugene SCHERBAKOV, Valentin FOMIN, Andrey ABRAMOV, Aleksey DORONKIN
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Patent number: 11064611Abstract: A method for fabricating a printed circuit, comprising: darkening a surface location of a conductive material with one or more ultrafast pulses of laser radiation and ablating the conductive material at the surface location with one or more longer duration pulses of laser radiation to produce traces or micro via patterns on the surface of a PCB. A hole for a blind micro via is produced by ablating the conductive material at the darkened surface location with one or more longer duration pulses of laser radiation and cleaning a second conductive material under the substrate with one or more further longer duration pulses of laser radiation.Type: GrantFiled: June 29, 2018Date of Patent: July 13, 2021Assignee: IPG PHOTONICS CORPORATIONInventor: David C. Clark
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Patent number: 11052482Abstract: A laser alignment system is used to align an output fiber with a fiber laser, for example, when coupling a feeding fiber to a process fiber using a beam coupler or switch. The alignment system includes a laser alignment apparatus that is coupled at a first end to the output fiber and at a second end to a beam dump/power meter. The alignment apparatus defines a light passage and a light capture chamber along the light passage. When light is not aligned into the core of the output fiber, at least a portion of the light passing out of the output fiber will be captured by the light capture chamber and detected by a photodetector in optical communication with the light capture chamber. By monitoring the readings of the photodetector, the output fiber may be properly aligned with the laser light from the fiber laser.Type: GrantFiled: February 10, 2017Date of Patent: July 6, 2021Assignee: IPG PHOTONICS CORPORATIONInventor: Yuri Grapov
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Patent number: 10978848Abstract: A method of inducing light losses at a parasitic wavelength in a fiber laser system includes providing a wavelength discriminator (WD) spaced from and between feeding and process fibers or from the end output of the feeding fiber so as to induce losses of light at parasitic wavelength. The device implementing the disclosed method is configured with a laser source, the delivery fiber and WD spaced at a distance between the surface to be treated and the end of the delivery fiber, wherein the WD receives the parasitic light over free space and is configured as a dichroic filter inducing losses to the light at the parasitic wavelength.Type: GrantFiled: June 30, 2017Date of Patent: April 13, 2021Assignee: IPG PHOTONICS CORPORATIONInventors: Andrey Mashkin, Valentin Fomin, Fedor Shcherbina, Alexander Dronov, Andrey Abramov, Vadim Mironov, Eugene Scherbakov
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Patent number: 10974494Abstract: Laser lift off systems and methods overlap irradiation zones to provide multiple pulses of laser irradiation per location at the interface between layers of material to be separated. To overlap irradiation zones, the laser lift off systems and methods provide stepwise relative movement between a pulsed laser beam and a workpiece. The laser irradiation may be provided by a non-homogeneous laser beam with a smooth spatial distribution of energy across the beam profile. The pulses of laser irradiation from the non-homogenous beam may irradiate the overlapping irradiation zones such that each of the locations at the interface is exposed to different portions of the non-homogeneous beam for each of the multiple pulses of the laser irradiation, thereby resulting in self-homogenization. Thus, the number of the multiple pulses of laser irradiation per location is generally sufficient to provide the self-homogenization and to separate the layers of material.Type: GrantFiled: June 5, 2017Date of Patent: April 13, 2021Assignee: IPG PHOTONICS CORPORATIONInventors: Cristian Porneala, Mathew Hannon, Marco Mendes, Jeffrey P. Sercel
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Patent number: 10951000Abstract: A single mode (SM) high power laser system is configured with a laser source outputting a single mode or low mode kW-power light and a passive delivery fiber spliced to an output fiber of the fiber laser source and having a double bottleneck-shaped core. The latter is configured to increase a threshold for nonlinear effects in general and in particular for stimulated Raman scattering (SRS) so that the delivery passive fiber has a fiber length at least twice the length of a delivery passive fiber with a standard uniformly dimensioned core, which may be used with the same laser source, while outputting the kW-power light with an M2 factor less than 2.Type: GrantFiled: September 20, 2016Date of Patent: March 16, 2021Assignee: IPG PHOTONICS CORPORATIONInventors: Anton Ferin, Valentin Fomin, Andrey Abramov
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Patent number: 10913130Abstract: Methods and systems are provided for using optical interferometry in the context of material modification processes such as surgical laser or welding applications. An imaging optical source that produces imaging light. A feedback controller controls at least one processing parameter of the material modification process based on an interferometry output generated using the imaging light. A method of processing interferograms is provided based on homodyne filtering. A method of generating a record of a material modification process using an interferometry output is provided.Type: GrantFiled: June 13, 2018Date of Patent: February 9, 2021Assignee: IPG PHOTONICS CORPORATIONInventors: Paul J. L. Webster, James M. Fraser, Victor X. D. Yang
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Patent number: 10906129Abstract: The present invention provides a multi-fiber laser output system that delivers at least three fiber outputs arranged in a circumferential pattern or otherwise at least four distinct laser outputs from a single processing cable. The present invention allows for controlling the at least three laser modules and delivering their respective outputs in a pre-determined sequence in a single processing cable, thereby providing multiple processing steps on a work piece that heretofore required separate optics for each beam. The at least three laser outputs are optimized for use in creating spot welds, seam welds or virtual wobble welds when used for seam welding.Type: GrantFiled: May 26, 2016Date of Patent: February 2, 2021Assignee: IPG PHOTONICS CORPORATIONInventors: Eugene Scherbakov, Valentin Fomin, Andrey Abramov, Dmitri Yagodkin, Holger Mamerow
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Patent number: 10898969Abstract: Methods and systems are provided for using optical interferometry in the context of material modification processes such as surgical laser, sintering, and welding applications. An imaging optical source that produces imaging light. A feedback controller controls at least one processing parameter of the material modification process based on an interferometry output generated using the imaging light. A method of processing interferograms is provided based on homodyne filtering. A method of generating a record of a material modification process using an interferometry output is provided.Type: GrantFiled: June 13, 2018Date of Patent: January 26, 2021Assignee: IPG PHOTONICS CORPORATIONInventors: Jordan Kanko, Paul J. L. Webster, James M. Fraser
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Patent number: 10895477Abstract: Optical polarization-based devices and techniques are provided to enable low cost construction and easy signal processing to measure the light frequency via measurements of signals associated with a delay between the two orthogonal polarizations after passing through a DGD element and the retardation value of the DGD element without directly measuring the optical frequency. The optical detection may be designed in various configurations. In particular, for example, the optical detection may split the optical output of the DGD into two optical beams with two different optical detectors so that the final frequency information can be deducted into a pair of sine and cosine functions, such as a pair of sine and cosine functions of measured optical signal levels and the retardation value of the DGD element.Type: GrantFiled: May 9, 2018Date of Patent: January 19, 2021Assignee: General Photonics CorporationInventors: Xiaotian Steve Yao, Xiaojun James Chen
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Patent number: 10892375Abstract: An energy storage capsule for storing energy in the form of photons. The body of the capsule may surround a sealed vacuum environment in which several layers of reactive material are contained, including an inner reflective coating, a first photovoltaic cell, an optical amplification medium, a second photovoltaic cell, and an outer reflective coating, provided in that order. The body of the capsule may also be reflective, for example polished aluminum. Light may be emitted from an LED wafer which may be integrated with the surface of the optical amplification medium, directed at the several layers of reactive material. Some photons may be reflected by the reflective material, storing them within the capsule, while others may be absorbed by the photovoltaic cells, powering the LEDs to transmit more photons. The thermal environment of the energy storage capsule may be maintained such that the LEDs can operate at over 100% efficiency.Type: GrantFiled: March 9, 2020Date of Patent: January 12, 2021Assignee: Quantum Photonics CorporationInventor: Matthew Ryan Hankla
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Patent number: 10886690Abstract: The present invention provides systems and methods for optical frequency comb generation with self-generated optical harmonics in mode-locked lasers for detecting the carrier envelope offset frequency. The mode-locked laser outputs an optical frequency comb and a harmonic output. The harmonic output provides an optical heterodyne resulting in a detectable beat note. A carrier envelope offset frequency detector detects the beat note and generates an optical frequency comb signal. The signal can be used to stabilize the optical frequency comb output.Type: GrantFiled: January 5, 2018Date of Patent: January 5, 2021Assignee: IPG PHOTONICS CORPORATIONInventor: Sergey Vasilyev
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Patent number: RE48398Abstract: The inventive system for crystallizing an amorphous silicon (a-Si) film is configured with a quasi-continuous wave fiber laser source operative to emit a film irradiating pulsed beam. The fiber laser source is operative to emit a plurality of non-repetitive pulses incident on the a-Si. In particular, the fiber laser is operative to emit multiple discrete packets of film irradiating light at a burst repetition rate (BRR), and a plurality of pulses within each packet emitted at a pulse repetition rate (PRR) which is higher than the BRR. The pulse energy, pulse duration of each pulse and the PRR are controlled so that each packet has a desired packet temporal power profile (W/cm2) and packet energy sufficient to provide transformation of a-Si to polysilicon (p-Si) at each location of the film which is exposed to at least one packets.Type: GrantFiled: August 8, 2019Date of Patent: January 19, 2021Assignee: IPG PHOTONICS CORPORATIONInventors: Alexey Avdokhin, Yuri Erokhin, Manuel Leonardo, Alexander Limanov, Igor Samartsev, Michael von Dadelszen