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Accession number: 20103013104260 Title: Study of the imaging performance for a noncollinear acousto-optic tunable filter Authors: Zhang, Chunguang1 ; Wang, Hao1 ; Qiu, Yishen1 Author affiliation: 1 Institute of Laser and Optoelectronics Technology, Fujian Provincial Key Laboratory for Photonics Technology, Fujian Normal University, Fuzhou 350007, China Corresponding author: Zhang, C. Source title: 2010 Symposium on Photonics and Optoelectronic, SOPO 2010 - Proceedings Abbreviated source title: Symp. Photonics Optoelectron., SOPO - Proc. Monograph title: 2010 Symposium on Photonics and Optoelectronic, SOPO 2010 - Proceedings Issue date: 2010 Publication year: 2010 Article number: 5504363 Language: English ISBN-13: 9781424449644 Document type: Conference article (CA) Conference name: International Symposium on Photonics and Optoelectronics, SOPO 2010 Conference date: June 19, 2010 - June 21, 2010 Conference location: Chengdu, China Conference code: 81219 Sponsor: IEEE Photonics Society; Sichuan University; Chongqing University; University of Electronic Science and Technology of China; Chinese Quantum Electronics and Optoelectronics Society (CQOES) Publisher: IEEE Computer Society, 445 Hoes Lane - P.O.Box 1331, Piscataway, NJ 08855-1331, United States Abstract: The imaging performance is a main factor for consideration in the acousto-optic tunable filter (AOTF) design. In this letter, on the basis of an accurate noncollinear acoustooptic interaction relationship, a design of the dispersion compensation for a noncollinear AOTF is developed. And the factors that influence the dispersion compensation are analyzed. The design is significant to improve the imaging performance of AOTF. ©2010 IEEE. Number of references: 10 Main heading: Acoustooptical effects Controlled terms: Band structure - Dispersion compensation - Electromagnetic dispersion - Optical design Uncontrolled terms: Acousto-optic interaction - Acousto-optic tunable filters - Imaging performance - Noncollinear - Optical design and fabrication Classification code: 711.1 Electromagnetic Waves in Different Media - 741 Light, Optics and Optical Devices - 741.1 Light/Optics - 751.2 Acoustic Properties of Materials - 933 Solid State Physics DOI: 10.1109/SOPO.2010.5504363 Database: Compendex Compilation and indexing terms, © 2010 Elsevier Inc. |
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Accession number: 20103013104258 Title: Signal evolution of slow and fast light in erbium doped fiber Authors: Wang, Hao1 ; Zhang, Chunguang1 Author affiliation: 1 Institute of Laser and Optoelectronics Technology, Fujian Provincial Key Laboratory for Photonics Technology, Fujian Normal University, Fuzhou 350007, China Corresponding author: Wang, H. Source title: 2010 Symposium on Photonics and Optoelectronic, SOPO 2010 - Proceedings Abbreviated source title: Symp. Photonics Optoelectron., SOPO - Proc. Monograph title: 2010 Symposium on Photonics and Optoelectronic, SOPO 2010 - Proceedings Issue date: 2010 Publication year: 2010 Article number: 5504361 Language: English ISBN-13: 9781424449644 Document type: Conference article (CA) Conference name: International Symposium on Photonics and Optoelectronics, SOPO 2010 Conference date: June 19, 2010 - June 21, 2010 Conference location: Chengdu, China Conference code: 81219 Sponsor: IEEE Photonics Society; Sichuan University; Chongqing University; University of Electronic Science and Technology of China; Chinese Quantum Electronics and Optoelectronics Society (CQOES) Publisher: IEEE Computer Society, 445 Hoes Lane - P.O.Box 1331, Piscataway, NJ 08855-1331, United States Abstract: Recently, researches about the controllable group velocity of light propagation had made many progresses. And several experiments had demonstrated the signal evolution of slow and fast light. In this letter, the authors described a simple experiment for the tracing of light signals in an erbium-doped optical fiber at the optical communication wavelength firstly. We have, directly, observed the evolution of slow and fast signals with different waveforms that travel in an erbium-doped fiber amplifier. Through tracing the signal evolution, when slow light (Vg≪c) or fast light (Vg<0) was got in it, we concluded that asymmetrical absorption and amplification on the periodical signal could account for the generation of slow and fast light in an erbium-doped fiber amplifier easily. ©2010 IEEE. Number of references: 14 Main heading: Slow light Controlled terms: Amplification - Biology - Erbium - Fiber amplifiers - Fibers - Light velocity - Optical communication - Optical fibers - Optical waveguides Uncontrolled terms: Erbium doped fibers - Erbium-doped optical fiber - Fast light - Fast signal - Group velocities - Light signal - Optical communication wavelength - Periodical signals - Signal evolution - Slow and fast light - Wave forms Classification code: 819.4 Fiber Products - 817 Plastics and Other Polymers: Products and Applications - 812 Ceramics, Refractories and Glass - 744.4 Solid State Lasers - 741.3 Optical Devices and Systems - 741.1.2 Fiber Optics - 741.1 Light/Optics - 717.2 Optical Communication Equipment - 717.1 Optical Communication Systems - 714.3 Waveguides - 713.1 Amplifiers - 547.2 Rare Earth Metals - 461.9 Biology DOI: 10.1109/SOPO.2010.5504361 Database: Compendex Compilation and indexing terms, © 2010 Elsevier Inc. |
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