K. Ogawa, ``Simplified theory of the multimode fiber coupler,'' Bell Syst. Tech. J. 56, 729-745 119772.K. Ogawa, "Simplified theory of the multimode fiber coupler", Bell Syst. Techn. J., vol. 56, 729 (1977).Ogawa K. Simplified theory of the multimode fiber coupler. The Bell ...
Simplified theory of the multimode fiber coupler 来自 IEEEXplore 喜欢 0 阅读量: 30 作者: K Ogawa 摘要: We simplify the coupling theory between two contiguous, parallel, multimode step-index fibers, describe the coupling concept, and derive an upper estimate for the overall coupling efficiency...
A two-channel optical fiber fused coupler comprising two optical fibers, each with a core and cladding, fused together at a narrow tapered waist. The first channel is at a wavelength of &lgr;.sub.1 and the second channel is at a wavelength of &lgr;.sub.2 where &lgr;.sub.2 is ...
A two-channel optical fiber fused coupler comprising two optical\nfibers, each with a core and cladding, fused together at a narrow tapered\nwaist. The first channel is at a wavelength of .lambda.1 and the second\nchannel is at\na wavelength of .lambda.2 where .lambda.2 is longer than...
This work provides a rapid and convenient framework for designing dielectric-plasmonic sensor prototypes—its applicability to the case of fibre plasmonic sensors is also discussed. Keywords: plasmonics; sensors; fibre sensors; coupled mode theory; hybrid plasmonic waveguides; directional coupling; photonic...
This work provides a rapid and convenient framework for designing dielectric-plasmonic sensor prototypes—its applicability to the case of fibre plasmonic sensors is also discussed. Keywords: plasmonics; sensors; fibre sensors; coupled mode theory; hybrid plasmonic waveguides; directional coupling; photonic...
This work provides a rapid and convenient framework for designing dielectric-plasmonic sensor prototypes—its applicability to the case of fibre plasmonic sensors is also discussed. Keywords: plasmonics; sensors; fibre sensors; coupled mode theory; hybrid plasmonic waveguides; directional coupling; photonic...