Presentation 2015-02-19
Optical confinement characterization of photonic nanotube as a nano-structured hollow-core optical fiber
Mazlan Fakruddin, Naokatsu Yamamoto, Hiroshi Takai, Tetsuya Kawanishi,
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Abstract(in English) Tightly confined light enables a variety of applications ranging from nonlinear light management to atomic manipulation. Light confinement in normal fiber is usually ultimately limited by diffraction, which tends to spread light away from the wave-guiding core, despite its higher refractive index. Hence it cannot provide strong guidance for long interaction lengths. It was recently demonstrated that such spreading fields can be trapped by a nanometer-scale slot inside a subwavelength waveguide. However, for nanometer-structure hollow core optical fiber, it's characteristic have not been discussed and it might hold great promise in the near future. In this study, we propose and optimize first a photonic nanotube structure as the nano-structured hollow-core optical fiber, and numerically analyze the optical confinement characterization in a hollow-core of the photonic nanotube.
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Keyword(in English) Micro-structured fibers / Photonic crystal fibers / Fiber characterization / Optical communication / Fiber optics communication
Paper # OCS2014-103,OFT2014-59,OPE2014-204
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Committee OCS
Conference Date 2015/2/12(1days)
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Language ENG
Title (in Japanese) (See Japanese page)
Sub Title (in Japanese) (See Japanese page)
Title (in English) Optical confinement characterization of photonic nanotube as a nano-structured hollow-core optical fiber
Sub Title (in English)
Keyword(1) Micro-structured fibers
Keyword(2) Photonic crystal fibers
Keyword(3) Fiber characterization
Keyword(4) Optical communication
Keyword(5) Fiber optics communication
1st Author's Name Mazlan Fakruddin
1st Author's Affiliation National institute of information and communication technology:Tokyo Denki University()
2nd Author's Name Naokatsu Yamamoto
2nd Author's Affiliation National institute of information and communication technology
3rd Author's Name Hiroshi Takai
3rd Author's Affiliation Tokyo Denki University
4th Author's Name Tetsuya Kawanishi
4th Author's Affiliation National institute of information and communication technology
Date 2015-02-19
Paper # OCS2014-103,OFT2014-59,OPE2014-204
Volume (vol) vol.114
Number (no) 451
Page pp.pp.-
#Pages 4
Date of Issue