Electric control tunable porous terahertz band gap optical fiber

An optical fiber and electronic control technology, applied in the direction of cladding optical fiber, light guide, optics, etc., can solve the application limitations of optoelectronic technology and microwave technology, etc., and achieve the effect of low transmission loss

Inactive Publication Date: 2012-12-19
TIANJIN POLYTECHNIC UNIV
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Problems solved by technology

However, the special position of terahertz waves in the electromagnetic spectrum determines that terahertz waves exhibit unique properties different from microwaves and light waves when interacting with matter, which makes terahertz technology not only bring many advantages, but also make mature optoelectronic technology The application of microwave technology and microwave technology in the terahertz band is greatly restricted. Therefore, according to the specific characteristics of terahertz waves, the development of practical functional devices is one of the major challenges facing the development of terahertz science and technology.

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  • Electric control tunable porous terahertz band gap optical fiber
  • Electric control tunable porous terahertz band gap optical fiber
  • Electric control tunable porous terahertz band gap optical fiber

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Embodiment Construction

[0016] like figure 1 As shown, the optical fiber is composed of a cladding composed of a base material 1 and composite air holes 2 and 3, and a porous core 4, and the fiber core is composed of a porous structure formed by 19 air holes. The air hole spacing Λ arranged in a triangular lattice in the cladding 1 =295μm, air hole diameter d 1 =0.33Λ 1 , the air pore spacing arranged in a honeycomb lattice Air hole diameter d 2 =0.55Λ 1 . The spacing and diameter of the air holes in the fiber core are the same as those of the air holes 2. The air hole 3 is filled with nematic liquid crystal 5CB. When filling the liquid crystal, the surface of the air hole is pre-treated and some active reagents are injected to anchor the direction of the liquid crystal molecules to be parallel to the optical axis of the fiber.

[0017] The base material of the optical fiber is high-density polyethylene with a refractive index of 1.534. The refractive index of air is 1. The liquid crystal f...

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Abstract

The invention discloses an electric control tunable porous terahertz band gap optical fiber. The substrate of the optical fiber is made of a plastic polymer; a fiber core of the optical fiber is composed of air holes arranged in a triangular lattice manner; the coating layer of the optical fiber is formed by composite air holes arranged in a triangular lattice and honeycomb lattice manner; and a nematic phase liquid crystal which is sensitive to an electric field is filled in the air holes arranged in the triangular lattice manner in the coating layer. With the adoption of the electric control tunable type porous terahertz band gap optical fiber, the direction of liquid crystal molecules is changed by controlling an electric field around the optical fiber, so as to change the refractive index of the liquid crystal, and therefore, the band gap property, the conduction mode, the transmission property and the transmission spectral line of the optical fiber can be controlled, and the functions of tunable filtering, switching and the like of terahertz waves can be realized; and furthermore, most guided mode energy is limited in the air holes of the fiber core, so that the absorption consumption of the substrate material on the guided mode energy can be effectively reduced.

Description

technical field [0001] The invention relates to a plastic polymer holey fiber, in particular to an electronically controllable tunable holey terahertz bandgap fiber. Background technique [0002] Terahertz waves refer to electromagnetic waves with frequencies between 0.1THz and 10THz and wavelengths between 30μm and 3mm. It is between microwave and infrared radiation, and is the transition field from electronics to photonics. Due to the special spectral position of terahertz waves, it has the advantages of perspective, safety, and high spectral signal-to-noise ratio. It has important academic and application value and has been widely used in object imaging, spectral analysis, medical diagnosis. , material analysis and testing, and wireless communications and other technical fields. It can be said that terahertz technology not only occupies an important academic position in scientific research, but also has important strategic significance for the development of the country...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G02B6/02G02B6/032
Inventor 白晋军常胜江邢海英王莎莎唐春晓
Owner TIANJIN POLYTECHNIC UNIV
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