Optical fiber preform, optical fiber and method for manufacturing optical fiber

An optical fiber preform, optical fiber technology, applied in chemical instruments and methods, glass optical fibers, manufacturing tools, etc., can solve problems such as insufficient reduction of Rayleigh scattering

Active Publication Date: 2020-06-19
FUJIKURA LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Therefore, even with a pure silica core fiber, the reduction of Rayleigh scattering is not sufficient, and most of the transmission loss is caused by Rayleigh scattering

Method used

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  • Optical fiber preform, optical fiber and method for manufacturing optical fiber
  • Optical fiber preform, optical fiber and method for manufacturing optical fiber
  • Optical fiber preform, optical fiber and method for manufacturing optical fiber

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Embodiment

[0057] Hereinafter, the present invention will be specifically described with reference to examples.

[0058] The core portion of the optical fiber preform is produced by the VAD method. In the VAD method, the deposited silica soot is mixed with chlorine (Cl 2 ) as a dehydrating agent in a helium (He) gas atmosphere to dehydrate, and then further increase the heating temperature in a He gas atmosphere to perform sintering to obtain a transparent core glass. Dehydration is carried out in the range of dehydrating agent concentration 0.2-6.0mol%, oxygen concentration 0-1mol%, dehydration temperature 1000-1300°C, dehydrating agent concentration 0-6.0mol%, oxygen concentration 0-1mol%, sintering temperature 1380-1500 Sintering in the range of ℃, so as to obtain the core glass with various ultraviolet transmittance characteristics.

[0059] After the core glass produced in this way is drawn to an appropriate thickness by conventional methods, pure silica soot is externally vapor-d...

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Abstract

The present invention provides an optical fiber preform having a core made of Ge-free silica glass, wherein the core has at least one of the following characteristics (1) and (2) in spectrometry: (1 ) has an absorption peak at a wavelength of 240nm to 255nm; (2) the wavelength at which the ultraviolet transmittance is below 50% is greater than 170nm.

Description

technical field [0001] The present invention relates to an optical fiber preform in which the transmission loss of the spun optical fiber is reduced, an optical fiber obtained by spinning the optical fiber preform, and a method for manufacturing the optical fiber. [0002] This application claims priority based on Japanese Patent Application No. 2015-141567 for which it applied on July 15, 2015, The content is used here. Background technique [0003] Theoretically, it is shown that the so-called pure (pure) silica core optical fiber with pure silica glass as the core and silica glass doped with fluorine as the cladding, and the SiO2 doped with germanium oxide as the core. Silica glass and pure silica glass cladding are used to achieve lower transmission loss than the usual Ge-doped core fiber. This is because the core through which most of the light propagating in the optical fiber passes is made of only silica glass, so there is substantially no concentration fluctuation a...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C03B37/018C03C13/04G02B6/02
CPCG02B6/02C03B37/01446C03B37/01453C03B37/0253C03B2201/02C03B2201/12C03B2201/20C03B2201/50C03B2203/24Y02P40/57G02B6/102C03C3/06C03C2201/11C03C2201/12B32B17/061B32B17/10018B32B17/10137B32B17/00C03C13/045C03C21/002C03B37/018C03C13/04C03B37/025G02B6/02395
Inventor 长洲胜文
Owner FUJIKURA LTD
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