Synopsis
The development of high power fiber laser and technologies are covered in this thesis. The first part of the thesis simulates the signal gain spectrum in an erbium-ytterbium fiber amplifier, which can be implemented in fiber laser systems to generate high power output. The second part proposes the use of gain-guided (GG) optical fibers to achieve high power mode-locked fiber lasers. The spatial-temporal pulse propagation in the GG fiber is simulated; self- focusing, and self-phase-modulation in this type of fiber is studied. The third part discusses phase- locked fiber laser designs. Self-imaging in optical fibers is simulated; the results provide a guide to the phase-locking fiber laser system design. The last part of the thesis investigates cylindrical vector (CV) beams generation from fiber laser system using a birefringent crystal. Radial and azimuthal polarization output can be switched very easily in this fiber cavity design. More interestingly, lasing with radial and azimuthal polarization can be achieved simultaneously. By introducing misalignment in the cavity, a beam with different polarization distributions is generated.
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About the Author
I am currently a Ph.D candidate in the College of Optical Sciences, University of Arizona. I got M.S degree from University of Dayton in 2010, and B.S degree from Huazhong University of Science and Technology (China) in 2008. My research interests is in fiber optics and polarization. I am a student member of IEEE, OSA,and SPIE.
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DEVELOPMENT OF HIGH POWER FIBER LASER TECHNOLOGIES
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DEVELOPMENT OF HIGH POWER FIBER LASER TECHNOLOGIES
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Taschenbuch. Condition: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -The development of high power fiber laser and technologies are covered in this thesis. The first part of the thesis simulates the signal gain spectrum in an erbium-ytterbium fiber amplifier, which can be implemented in fiber laser systems to generate high power output. The second part proposes the use of gain-guided (GG) optical fibers to achieve high power mode-locked fiber lasers. The spatial-temporal pulse propagation in the GG fiber is simulated; self- focusing, and self-phase-modulation in this type of fiber is studied. The third part discusses phase- locked fiber laser designs. Self-imaging in optical fibers is simulated; the results provide a guide to the phase-locking fiber laser system design. The last part of the thesis investigates cylindrical vector (CV) beams generation from fiber laser system using a birefringent crystal. Radial and azimuthal polarization output can be switched very easily in this fiber cavity design. More interestingly, lasing with radial and azimuthal polarization can be achieved simultaneously. By introducing misalignment in the cavity, a beam with different polarization distributions is generated. 116 pp. Englisch. Seller Inventory # 9783843351577
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Development of High Power Fiber Laser Technologies
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Development of High Power Fiber Laser Technologies
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Development of High Power Fiber Laser Technologies
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DEVELOPMENT OF HIGH POWER FIBER LASER TECHNOLOGIES
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Taschenbuch. Condition: Neu. This item is printed on demand - Print on Demand Titel. Neuware -The development of high power fiber laser and technologies are covered in this thesis. The first part of the thesis simulates the signal gain spectrum in an erbium-ytterbium fiber amplifier, which can be implemented in fiber laser systems to generate high power output. The second part proposes the use of gain-guided (GG) optical fibers to achieve high power mode-locked fiber lasers. The spatial-temporal pulse propagation in the GG fiber is simulated; self- focusing, and self-phase-modulation in this type of fiber is studied. The third part discusses phase- locked fiber laser designs. Self-imaging in optical fibers is simulated; the results provide a guide to the phase-locking fiber laser system design. The last part of the thesis investigates cylindrical vector (CV) beams generation from fiber laser system using a birefringent crystal. Radial and azimuthal polarization output can be switched very easily in this fiber cavity design. More interestingly, lasing with radial and azimuthal polarization can be achieved simultaneously. By introducing misalignment in the cavity, a beam with different polarization distributions is generated.VDM Verlag, Dudweiler Landstraße 99, 66123 Saarbrücken 116 pp. Englisch. Seller Inventory # 9783843351577
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DEVELOPMENT OF HIGH POWER FIBER LASER TECHNOLOGIES
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LAP LAMBERT Academic Publishing, 2010
ISBN 10: 3843351570
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Taschenbuch. Condition: Neu. nach der Bestellung gedruckt Neuware - Printed after ordering - The development of high power fiber laser and technologies are covered in this thesis. The first part of the thesis simulates the signal gain spectrum in an erbium-ytterbium fiber amplifier, which can be implemented in fiber laser systems to generate high power output. The second part proposes the use of gain-guided (GG) optical fibers to achieve high power mode-locked fiber lasers. The spatial-temporal pulse propagation in the GG fiber is simulated; self- focusing, and self-phase-modulation in this type of fiber is studied. The third part discusses phase- locked fiber laser designs. Self-imaging in optical fibers is simulated; the results provide a guide to the phase-locking fiber laser system design. The last part of the thesis investigates cylindrical vector (CV) beams generation from fiber laser system using a birefringent crystal. Radial and azimuthal polarization output can be switched very easily in this fiber cavity design. More interestingly, lasing with radial and azimuthal polarization can be achieved simultaneously. By introducing misalignment in the cavity, a beam with different polarization distributions is generated. Seller Inventory # 9783843351577
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DEVELOPMENT OF HIGH POWER FIBER LASER TECHNOLOGIES
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ISBN 10: 3843351570
ISBN 13: 9783843351577
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Taschenbuch. Condition: Neu. DEVELOPMENT OF HIGH POWER FIBER LASER TECHNOLOGIES | Renjie Zhou | Taschenbuch | 116 S. | Englisch | 2010 | LAP LAMBERT Academic Publishing | EAN 9783843351577 | Verantwortliche Person für die EU: OmniScriptum GmbH & Co. KG, Bahnhofstr. 28, 66111 Saarbrücken, info[at]akademikerverlag[dot]de | Anbieter: preigu. Seller Inventory # 107297687