Alignment Method of Polymer Waveguide and Optical Component using Fluorescence

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概要

• 論文の詳細を見る

• We have developed a new method of aligning the optical axes of a polymer waveguide (PWG) and the optical components without monitoring the intensity of light passing through them. A light path can be seen as a fluorescent image from PWG material excited by an incident light without adding any fluorescent dyes. By observing the intensity and shape of such a light path, the optical axes of the input optical components and PWG can be adjusted without monitoring the output power passing through them. This alignment method can be applied to the assembly of a complicated optical system that consists of PWGs and optical components, such as mirrors and microlenses.

• Japan Society of Applied Physicsの論文
• 2005-08-10

著者

• Hasegawa Masaki

  Tokyo Institute Of Technology Department Of Textile And Polymeric Materials

• Hasegawa Masaki

  Tokyo Research Laboratory, IBM Research, 1623-14 Shimotsuruma, Yamato, Kanagawa 242-8502, Japan

関連論文

• Experimental Confirmation of Characteristic Angular Dependence at Low Intensity Levels in Rayleigh Scattering from Monodomain Nematics
• Azimuthal Anchoring Energies of Photoaligned Nematic Liquid Crystals Produced by Small Dosages of Linearly Polarized UV Light : Structure and Mechanicall and Termal Properties of Condensed Matter
• Fabrication of Freely Patterned Aligned Nematic Liquid Crystal Cells Using UV Laser Scanning Photoalignment : Structure and Mechanical and Thermal Properties of Condensed Matter
• Alignment Method of Polymer Waveguide and Optical Component using Fluorescence

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