Patents by Inventor Liang Dong
Liang Dong 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: 20130114933Abstract: Various embodiments described include optical fiber designs and fabrication processes for ultra high numerical aperture optical fibers (UHNAF) having a numerical aperture (NA) of about 1. Various embodiments of UHNAF may have an NA greater than about 0.7, greater than about 0.8, greater than about 0.9, or greater than about 0.95. Embodiments of UHNAF may have a small core diameter and may have low transmission loss. Embodiments of UHNAF having a sufficiently small core diameter provide single mode operation. Some embodiments have a low V number, for example, less than 2.4 and large dispersion. Some embodiments of UHNAF have extremely large negative dispersion, for example, less than about ?300 ps/nm/km in some embodiments. Systems and apparatus using UHNAF are also disclosed.Type: ApplicationFiled: September 11, 2012Publication date: May 9, 2013Applicant: IMRA AMERICA, INC.Inventors: Liang Dong, Xiang Peng, Brian K. Thomas
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Publication number: 20130089113Abstract: Various embodiments include large cores fibers that can propagate few modes or a single mode while introducing loss to higher order modes. Some of these fibers are holey fibers that comprising cladding features such as air-holes. Additional embodiments described herein include holey rods. The rods and fibers may be used in many optical systems including optical amplification systems, lasers, short pulse generators, Q-switched lasers, etc. and may be used for example for micromachining.Type: ApplicationFiled: September 11, 2012Publication date: April 11, 2013Applicant: IMRA AMERICA, INC.Inventors: LIANG DONG, WILLIAM WONG, MARTIN E. FERMANN
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Publication number: 20130089112Abstract: Holey fibers provide optical propagation. In various embodiments, a large core holey fiber comprises a cladding region formed by large holes arranged in few layers. The number of layers or rows of holes about the large core can be used to coarse tune the leakage losses of the fundamental and higher modes of a signal, thereby allowing the non-fundamental modes to be substantially eliminated by leakage over a given length of fiber. Fine tuning of leakage losses can be performed by adjusting the hole dimension and/or spacing to yield a desired operation with a desired leakage loss of the fundamental mode. Resulting holey fibers have a large hole dimension and spacing, and thus a large core, when compared to traditional fibers and conventional fibers that propagate a single mode. Other loss mechanisms, such as bend loss and modal spacing can be utilized for selected modes of operation of holey fibers.Type: ApplicationFiled: September 11, 2012Publication date: April 11, 2013Applicant: IMRA AMERICA, INC.Inventors: Liang Dong, Donald J. Harter, William Wong
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Publication number: 20130034734Abstract: A resin composition used to being injection molded to metal to make composite of resin and metal, comprises 40% to 90% by weight of main resin, 0% to 30% by weight of reinforcer; and 0% to 40% by weight of filler. The main resin comprises one or more ingredients selected from a group consisting of PCT and derivatives of PCT. The resin composition has a low crystallization temperature and an appropriate crystallization rate.Type: ApplicationFiled: December 15, 2011Publication date: February 7, 2013Applicants: HON HAI PRECISION INDUSTRY CO., LTD., HONG FU JIN PRECISION INDUSTRY (ShenZhen) CO., LTD.Inventors: HSIN-PEI CHANG, JUN-YI WANG, XUE-PENG LI, MING-HSU LU, LIANG-LIANG DONG
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Publication number: 20130034701Abstract: A resin composition used to being injection molded to metal to make composite of resin and metal, comprises 40% to 90% by weight of main resin, 5% to 30% by weight of crystallization modifier; and 0% to 40% by weight of filler. The main resin comprises one or more ingredients selected from a group consisting of one or more ingredients selected from polyamide polymers. The resin composition has a low crystallization temperature and an appropriate crystallization rate.Type: ApplicationFiled: December 15, 2011Publication date: February 7, 2013Applicants: HON HAI PRECISION INDUSTRY CO., LTD., HONG FU JIN PRECISION INDUSTRY (ShenZhen) CO., LTD.Inventors: HSIN-PEI CHANG, JUN-YI WANG, XUE-PENG LI, MING-HSU LU, LIANG-LIANG DONG
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Publication number: 20120314995Abstract: Various embodiments of optical fiber designs and fabrication processes for ultra small core fibers (USCF) are disclosed. In some embodiments, the USCF includes a core that is at least partially surrounded by a region comprising first features. The USCF further includes a second region at least partially surrounding the first region. The second region includes second features. In an embodiment, the first features are smaller than the second features, and the second features have a filling fraction greater than about 90 percent. The first features and/or the second features may include air holes. Embodiments of the USCF may provide dispersion tailoring. Embodiments of the USCF may be used with nonlinear optical devices configured to provide, for example, a frequency comb or a supercontinuum.Type: ApplicationFiled: April 16, 2012Publication date: December 13, 2012Applicant: IMRA AMERICA, INC.Inventors: Liang Dong, Brian Thomas, Libin Fu
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Patent number: 8290322Abstract: Various embodiments include large cores fibers that can propagate few modes or a single mode while introducing loss to higher order modes. Some of these fibers are holey fibers that comprising cladding features such as air-holes. Additional embodiments described herein include holey rods. The rods and fibers may be used in many optical systems including optical amplification systems, lasers, short pulse generators, Q-switched lasers, etc. and may be used for example for micromachining.Type: GrantFiled: September 26, 2011Date of Patent: October 16, 2012Assignee: IMRA America, Inc.Inventors: Liang Dong, William Wong, Martin E. Fermann
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Publication number: 20120257271Abstract: Multi-clad optical fibers and fiber amplifiers are disclosed. Various embodiments include multi-clad, large core fiber amplifiers. In various implementations mixing of pump modes is enhanced relative to that obtainable with conventional double-clad fibers. In some embodiments end terminations are provided with increased length of end-cap fiber. In at least one embodiment a multi-clad fiber is provided, with a pump cladding formed by stacking a layer of low index rods in the preform. Various embodiments include a multi-clad fiber amplifier system. The system includes a pump source to pump said fiber amplifier. The system also includes an optical fiber having a core and a cladding, wherein the cladding includes a pump cladding having a corrugated boundary. In various embodiments the pump cladding is formed by rods in a preform, which are disposed to mix the pump modes and/or scatter or reflect pump energy into the core.Type: ApplicationFiled: June 11, 2012Publication date: October 11, 2012Applicant: IMRA AMERICA, INC.Inventors: Liang Dong, Hugh McKay
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Patent number: 8285100Abstract: Various embodiments described include optical fiber designs and fabrication processes for ultra high numerical aperture optical fibers (UHNAF) having a numerical aperture (NA) of about 1. Various embodiments of UHNAF may have an NA greater than about 0.7, greater than about 0.8, greater than about 0.9, or greater than about 0.95. Embodiments of UHNAF may have a small core diameter and may have low transmission loss. Embodiments of UHNAF having a sufficiently small core diameter provide single mode operation. Some embodiments have a low V number, for example, less than 2.4 and large dispersion. Some embodiments of UHNAF have extremely large negative dispersion, for example, less than about ?300 ps/nm/km in some embodiments. Systems and apparatus using UHNAF are also disclosed.Type: GrantFiled: August 23, 2011Date of Patent: October 9, 2012Assignee: IMRA America, Inc.Inventors: Liang Dong, Xiang Peng, Brian K. Thomas
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Patent number: 8285099Abstract: Various types of holey fiber provide optical propagation. In various embodiments, for example, a large core holey fiber comprises a cladding region formed by large holes arranged in few layers. The number of layers or rows of holes about the large core can be used to coarse tune the leakage losses of the fundamental and higher modes of a signal, thereby allowing the non-fundamental modes to be substantially eliminated by leakage over a given length of fiber. Fine tuning of leakage losses can be performed by adjusting the hole dimension and/or the hole spacing to yield a desired operation with a desired leakage loss of the fundamental mode. Resulting holely fibers have a large hole dimension and spacing, and thus a large core, when compared to traditional fibers and conventional fibers that propagate a single mode. Other loss mechanisms, such as bend loss and modal spacing can be utilized for selected modes of operation of holey fibers. Other embodiments are also provided.Type: GrantFiled: September 6, 2007Date of Patent: October 9, 2012Assignee: IMRA America, Inc.Inventors: Liang Dong, Donald J. Harter, William Wong
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Patent number: 8285098Abstract: Various embodiments include photonic bandgap fibers (PBGF). Some PBGF embodiments have a hollow core (HC) and may have a square lattice (SQL). In various embodiments, SQL PBGF can have a cladding region including 2-10 layers of air-holes. In various embodiments, an HC SQL PBGF can be configured to provide a relative wavelength transmission window ??/?c larger than about 0.35 and a minimum transmission loss in a range from about 70 dB/km to about 0.1 dB/km. In some embodiments, the HC SQL PBGF can be a polarization maintaining fiber. Methods of fabricating PBGF are also disclosed along with some examples of fabricated fibers. Various applications of PBGF are also described.Type: GrantFiled: September 29, 2010Date of Patent: October 9, 2012Assignee: IMRA America, Inc.Inventors: Liang Dong, Brian K. Thomas, Shigeru Suzuki, Libin Fu
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Publication number: 20120250143Abstract: Various embodiments described herein include rare earth doped glass compositions that may be used in optical fiber and rods having large core sizes. Such optical fibers and rods may be employed in fiber lasers and amplifiers. The index of refraction of the glass may be substantially uniform and may be close to that of silica in some embodiments. Possible advantages to such features include reduction of formation of additional waveguides within the core, which becomes increasingly a problem with larger core sizes.Type: ApplicationFiled: June 11, 2012Publication date: October 4, 2012Applicant: IMRA AMERICA, INC.Inventors: Liang Dong, Xiang Peng
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Publication number: 20120206794Abstract: High power parallel fiber arrays for the amplification of high peak power pulses are described. Fiber arrays based on individual fiber amplifiers as well as fiber arrays based on multi-core fibers can be implemented. The optical phase between the individual fiber amplifier elements of the fiber array is measured and controlled using a variety of phase detection and compensation techniques. High power fiber array amplifiers can be used for EUV and X-ray generation as well as pumping of parametric amplifiers.Type: ApplicationFiled: April 27, 2012Publication date: August 16, 2012Applicant: IMRA AMERICA, INC.Inventors: Martin E. FERMANN, Ingmar HARTL, Andrius MARCINKEVICIUS, Liang DONG
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Publication number: 20120188632Abstract: Embodiments of optical fiber may include cladding features that include a material (e.g., fluorine-doped silica glass) that may produce a very low relative refractive index difference with respect to cladding material in which the cladding features are disposed. This relative refractive index difference may be characterized by (n1?n2)/n1, where n1 is the index of refraction of the cladding material in which the cladding features are included, and n2 is the index of refraction of the cladding features. In certain embodiments, the relative refractive index difference may be less than about 4.5×10?3. In various embodiments, the configuration of the cladding features including, for example, the size and spacing of the cladding features, can be selected to provide for confinement of the fundamental mode yet leakage for the second mode and higher modes, which may provide mode filtering, single mode propagation, and/or low bend loss.Type: ApplicationFiled: April 5, 2012Publication date: July 26, 2012Applicant: IMRA AMERICA, INC.Inventors: Liang Dong, Jun Li, Hugh McKay, Libin Fu, Andrius Marcinkevicius
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Patent number: 8213077Abstract: Multi-clad optical fibers and fiber amplifiers are disclosed. Various embodiments include multi-clad, large core fiber amplifiers. In various implementations mixing of pump modes is enhanced relative to that obtainable with conventional double-clad fibers. In some embodiments end terminations are provided with increased length of end-cap fiber. In at least one embodiment a multi-clad fiber is provided, with a pump cladding formed by stacking a layer of low index rods in the preform. Various embodiments include a multi-clad fiber amplifier system. The system includes a pump source to pump said fiber amplifier. The system also includes an optical fiber having a core and a cladding, wherein the cladding includes a pump cladding having a corrugated boundary. In various embodiments the pump cladding is formed by rods in a preform, which are disposed to mix the pump modes and/or scatter or reflect pump energy into the core.Type: GrantFiled: March 26, 2009Date of Patent: July 3, 2012Assignee: IMRA America, Inc.Inventors: Liang Dong, Hugh McKay
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Patent number: 8213758Abstract: Various embodiments described herein include rare earth doped glass compositions that may be used in optical fiber and rods having large core sizes. Such optical fibers and rods may be employed in fiber lasers and amplifiers. The index of refraction of the glass may be substantially uniform and may be close to that of silica in some embodiments. Possible advantages to such features include reduction of formation of additional waveguides within the core, which becomes increasingly a problem with larger core sizes.Type: GrantFiled: May 28, 2010Date of Patent: July 3, 2012Assignee: IMRA America, Inc.Inventors: Liang Dong, Xiang Peng
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Patent number: 8199398Abstract: High power parallel fiber arrays for the amplification of high peak power pulses are described. Fiber arrays based on individual fiber amplifiers as well as fiber arrays based on multi-core fibers can be implemented. The optical phase between the individual fiber amplifier elements of the fiber array is measured and controlled using a variety of phase detection and compensation techniques. High power fiber array amplifiers can be used for EUV and X-ray generation as well as pumping of parametric amplifiers.Type: GrantFiled: February 4, 2009Date of Patent: June 12, 2012Assignee: IMRA America, Inc.Inventors: Martin E. Fermann, Ingmar Hartl, Andrius Marcinkevicius, Liang Dong
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Publication number: 20120116238Abstract: The invention proposes a system for measuring a resonance frequency of a tube. The system comprises: an oscillating unit (21) for oscillating the tube at a plurality of oscillation frequencies, respectively; a detecting unit (22) for detecting a time delay of transmitting a pressure pulse from a first position to a second position in the tube when the tube is oscillated at each oscillation frequency, wherein, when the tube is oscillated at each oscillation frequency in a specific oscillation frequency range of the plurality of oscillation frequencies, the detecting unit (22) detects a variation of the time delay—a determining unit (23) for determining a maximal variation of the time delay when the tube is oscillated at the oscillation frequencies in the specific oscillation frequency range; and—an indicating unit (24) for indicating an oscillation frequency corresponding to the maximal variation of the time delay, being a resonance frequency of the tube.Type: ApplicationFiled: July 13, 2010Publication date: May 10, 2012Applicant: KONINKLIJKE PHILIPS ELECTRONICS N.V.Inventors: Maarten Leonardus Christian Brand, Liang Dong, Juan Du
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Publication number: 20120110495Abstract: Electronic equipment is controlled with a touching-type signal input device. An inputted navigator-calling request is received. A request mode of the inputted navigator-calling request is compared with a predefined request mode. It is determined whether the request mode of the inputted navigator-calling request matches with the predefined request mode. A navigator is displayed in response to determining there is a match. The navigator has a set of tabs distributed on at least part of a closed structure.Type: ApplicationFiled: October 21, 2011Publication date: May 3, 2012Applicant: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Jian Wen Chi, Fang Liang Dong, Chang Huang, Zi Xuan Zhou
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Publication number: 20120099609Abstract: Various embodiments include large cores fibers that can propagate few modes or a single mode while introducing loss to higher order modes. Some of these fibers are holey fibers that comprising cladding features such as air-holes. Additional embodiments described herein include holey rods. The rods and fibers may be used in many optical systems including optical amplification systems, lasers, short pulse generators, Q-switched lasers, etc. and may be used for example for micromachining.Type: ApplicationFiled: September 26, 2011Publication date: April 26, 2012Applicant: IMRA AMERICA, INC.Inventors: Liang Dong, William Wong, Martin E. Fermann