Patents by Inventor Fabio Ghiringhelli
Fabio Ghiringhelli 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: 20250242436Abstract: Apparatus for laser processing a material (29), which apparatus comprises at least one first laser (15), at least one second laser (16), an optical combiner (3), and a multicore fibre (10), wherein: each first laser (15) is connected to the optical combiner (3) via a first feed fibre (1); each second laser (16) is connected to the optical combiner (3) via a second feed fibre (2); the optical combiner (3) connects the first feed fibre (1) to a first core (11) of the multicore fibre (10), and the second feed fibre (2) to a second core (12) of the multicore fibre (10); the optical combiner (3) provides a first optical path (41) from the first laser (15) to the first core (11) of the multicore fibre (10); the optical combiner (3) provides a second optical path (42) from the second laser (16) to the second core (12) of the multicore fibre (10); and the optical combiner (3) comprises a fibre bundle (4) that is tapered along its length.Type: ApplicationFiled: June 29, 2023Publication date: July 31, 2025Inventors: Iain Botheroyd, Rongsheng Chen, Michael Kevan Durkin, Fabio Ghiringhelli, Krysztof Pawel Herdzik, Andrew Malinowski
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Patent number: 10641961Abstract: An optical fibre (10) which has a first refractive index profile (61) that can be changed by heating to a second refractive index profile (62), at least one first dopant (7) for providing the first refractive index profile, at least one concealed dopant (8), and at least one mobile dopant (9), wherein the mobile dopant has a molar refractivity and is present in a concentration (19) such as to balance a change (146) in the first refractive index profile induced by the concealed dopant, and has a diffusion constant (16) greater than a diffusion constant (15) of the concealed dopant, so that heating of the optical fibre causes the mobile dopant to diffuse more quickly than the concealed dopant, thereby allowing the concealed dopant and the mobile dopant to change the first refractive index profile to the second refractive index profile.Type: GrantFiled: May 24, 2017Date of Patent: May 5, 2020Assignee: SPI Lasers UK LimitedInventors: Fabio Ghiringhelli, Mikhail Nickolaos Zervas, Julia Helen Shaw, Andrew Marshall
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Publication number: 20190196104Abstract: An optical fibre (10) which has a first refractive index profile (61) that can be changed by heating to a second refractive index profile (62), at least one first dopant (7) for providing the first refractive index profile, at least one concealed dopant (8), and at least one mobile dopant (9), wherein the mobile dopant has a molar refractivity and is present in a concentration (19) such as to balance a change (146) in the first refractive index profile induced by the concealed dopant, and has a diffusion constant (16) greater than a diffusion constant (15) of the concealed dopant, so that heating of the optical fibre causes the mobile dopant to diffuse more quickly than the concealed dopant, thereby allowing the concealed dopant and the mobile dopant to change the first refractive index profile to the second refractive index profile.Type: ApplicationFiled: May 24, 2017Publication date: June 27, 2019Inventors: Fabio GHIRINGHELLI, Mikhail Nickolaos ZERVAS, Julia Helen SHAW, Andrew MARSHALL
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Patent number: 8520306Abstract: Apparatus for combining laser radiation (1) 5 which apparatus comprises a seed laser (2), a splitter (3), a plurality of amplifier chains (4), a reference amplifier chain (7), detection means (5). demodulator means (6), and phase control means (12), wherein each of the amplifier chains (4) comprises at least one optical amplifier (11), optical radiation (17) emitted from the seed laser (2) is split into the plurality of amplifier chains (4) by the splitter (3).Type: GrantFiled: October 23, 2009Date of Patent: August 27, 2013Assignee: SPI Lasers UK LtdInventors: Malcolm Paul Varnham, Mikhail Nickolaos Zervas, Fabio Ghiringhelli, Andrew Thomas Harker
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Publication number: 20110216790Abstract: In one embodiment, a photo-darkening resistant optical fibre includes a waveguide having a numerical aperture less than 0.15. The waveguide includes a core having a refractive index n1 and a pedestal having a refractive index n2, and wherein the fibre includes a first cladding having a refractive index n3 surrounding the pedestal, wherein n1 is greater than n2, n2 is greater than n3. The core includes silica, a concentration of alumina of between approximately 0.3 to 0.8 mole percent, a concentration of phosphate of substantially 15 mole percent, a concentration of ytterbium substantially in the range 20000 to 45000 ppm. The pedestal can include silica, phosphate and germania. The core can have substantially zero thulium dopant.Type: ApplicationFiled: May 17, 2011Publication date: September 8, 2011Inventors: Michael Kevan Durkin, Stephen Roy Norman, Fabio Ghiringhelli, David Neil Payne, Louise Mary Brendan Hickey, Jayanta Kumar Sahu, Mikhail Nickolaos Zervas, Andy Piper, Andrew Michael Gillooly
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Publication number: 20110206074Abstract: In one embodiment, a photo-darkening resistant optical fibre includes a waveguide having a numerical aperture less than 0.15. The waveguide includes a core having a refractive index n1 and a pedestal having a refractive index n2, and wherein the fibre includes a first cladding having a refractive index n3 surrounding the pedestal, wherein n1 is greater than n2, n2 is greater than n3. The core includes silica, a concentration of alumina of between approximately 0.3 to 0.8 mole percent, a concentration of phosphate of substantially 15 mole percent, a concentration of ytterbium substantially in the range 20000 to 45000 ppm. The pedestal can include silica, phosphate and germania. The core can have substantially zero thulium dopant.Type: ApplicationFiled: April 29, 2011Publication date: August 25, 2011Inventors: Michael Kevan Durkin, Stephen Roy Norman, Fabio Ghiringhelli, David Neil Payne, Louise Mary Brendan Hickey, Jayanta Kumar Sahu, Mikhail Nickolaos Zervas, Andy Piper, Andrew Michael Gillooly
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Publication number: 20110194166Abstract: Apparatus for combining laser radiation (1) 5 which apparatus comprises a seed laser (2), a splitter (3), a plurality of amplifier chains (4), a reference amplifier chain (7), detection means (5). demodulator means (6), and phase control means (12), wherein each of the amplifier chains (4) comprises at least one optical amplifier (11), optical radiation (17) emitted from the seed laser (2) is split into the plurality of amplifier chains (4) by the splitter (3).Type: ApplicationFiled: October 23, 2009Publication date: August 11, 2011Inventors: Malcom Paul Varnham, Mikhail Nickolaos Zervas, Fabio Ghiringhelli, Andrew Thomas Harker
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Patent number: 7936796Abstract: In one embodiment, a photo-darkening resistant optical fiber includes a waveguide having a numerical aperture less than 0.15. The waveguide includes a core having a refractive index n1 and a pedestal having a refractive index n2, and wherein the fiber includes a first cladding having a refractive index n3 surrounding the pedestal, wherein n1 is greater than n2, n2 is greater than n3. The core includes silica, a concentration of alumina of between approximately 0.3 to 0.8 mole percent, a concentration of phosphate of substantially 15 mole percent, a concentration of ytterbium substantially in the range 20000 to 45000 ppm. The pedestal can include silica, phosphate and germania. The core can have substantially zero thulium dopant.Type: GrantFiled: May 11, 2007Date of Patent: May 3, 2011Assignee: SPI Lasers UK LtdInventors: Michael Kevan Durkin, Stephen Roy Norman, Fabio Ghiringhelli, David Neil Payne, Louise Mary Brendan Hickey, Jayanta Kumar Sahu, Mikhail Nickolaos Zervas, Andy Piper, Andrew Michael Gillooly
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Publication number: 20090016387Abstract: In one embodiment, a photo-darkening resistant optical fibre includes a waveguide having a numerical aperture less than 0.15. The waveguide includes a core having a refractive index n1 and a pedestal having a refractive index n2, and wherein the fibre includes a first cladding having a refractive index n3 surrounding the pedestal, wherein n1 is greater than n2, n2 is greater than n3. The core includes silica, a concentration of alumina of between approximately 0.3 to 0.8 mole percent, a concentration of phosphate of substantially 15 mole percent, a concentration of ytterbium substantially in the range 20000 to 45000 ppm. The pedestal can include silica, phosphate and germania. The core can have substantially zero thulium dopant.Type: ApplicationFiled: May 11, 2007Publication date: January 15, 2009Inventors: Michael Kevan Durkin, Stephen Roy Norman, Fabio Ghiringhelli, David Neil Payne, Louise Mary Brendan Hickey, Jayanta Kumar Sahu, Mikhail Nickolaos Zervas, Andy Piper, Andrew Michael Gillooly