Improvement of transparency and durability to deep ultraviolet light in fluorine-doped silica glass fiber by optimizing the preform fabrication process(<Feature>Glass and Ceramic Materials for Photonics)

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概要

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• Fluorine-doped silica glass fiber was fabricated as fiber-core for transmittance of deep ultraviolet wavelength region. By examining the effect of oxyhydrogen flame onto the core-glass (conventional cleaning process called fire-polishing process), it was found to create oxygen-deficiency centers. Additionally, fire-polishing process changes the distribution of fluorine concentration near core-cladding interface and leads to the deterioration of the optical characteristics of the fiber. By conducting preform fabrication without fire-polishing, the obtained fluorine-doped silica glass fiber showed high transmittance of more than 92% m^<-1> at 266 nm and excellent durability after 4G pulses of 7mJcm^<-2> laser irradiation.

• 社団法人日本セラミックス協会の論文
• 2008-10-01

著者

• Koike Akio

  Asahi Glass Co. Ltd.

• Okada Kaname

  Asahi Glass Co. Ltd.

• ONO Madoka

  Asahi Glass Co., Ltd.

• OGAWA Tomonori

  Asahi Glass Co., Ltd.

• KIKUGAWA Sinya

  Asahi Glass Co., Ltd.

• Ono Madoka

  Asahi Glass Co. Ltd.

• Kikugawa Sinya

  Asahi Glass Co. Ltd.

• Ogawa Tomonori

  Asahi Glass Co. Ltd.

関連論文

• Improvement of transparency and durability to deep ultraviolet light in fluorine-doped silica glass fiber by optimizing the preform fabrication process(Glass and Ceramic Materials for Photonics)
• Improvement of transparency and durability to deep ultraviolet light in fluorine-doped silica glass fiber by optimizing the preform fabrication process

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