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Related Experiment Video

Updated: May 14, 2026

Fabrication of 1-D Photonic Crystal Cavity on a Nanofiber Using Femtosecond Laser-induced Ablation
13:02

Fabrication of 1-D Photonic Crystal Cavity on a Nanofiber Using Femtosecond Laser-induced Ablation

Published on: February 25, 2017

Nanomechanical optical fiber.

Zhenggang Lian1, Peter Horak, Xian Feng

  • 1Optoelectronics Research Centre, University of Southampton, Southampton SO17 1BJ, UK. z.lian@soton.ac.uk

Optics Express
|February 8, 2013
PubMed
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Researchers developed nanomechanical optical fibers with adjustable internal structures. These novel fibers enable light switching between cores via precise sub-micron mechanical movements, offering new possibilities for optical communication.

Area of Science:

  • Photonics
  • Materials Science
  • Nanotechnology

Background:

  • Optical fibers are crucial for internet infrastructure but typically have fixed properties post-fabrication.
  • Modifying optical properties often relies on electro-optical effects, which can be limited.
  • A need exists for reconfigurable optical fiber technologies.

Purpose of the Study:

  • To introduce and demonstrate the concept of nanomechanical optical fibers.
  • To show that internal fiber structures can be controlled via mechanical movements.
  • To achieve reconfigurable optical properties in fibers.

Main Methods:

  • Fabrication of dual core optical fibers with independently suspended cores.
  • Utilizing sub-micron mechanical movements to alter the fiber's internal structure.

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Related Experiment Videos

Last Updated: May 14, 2026

Fabrication of 1-D Photonic Crystal Cavity on a Nanofiber Using Femtosecond Laser-induced Ablation
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Published on: February 25, 2017

Design and Fabrication of an Optical Fiber Made of Water
08:06

Design and Fabrication of an Optical Fiber Made of Water

Published on: November 8, 2018

A Silicon-tipped Fiber-optic Sensing Platform with High Resolution and Fast Response
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  • Optical characterization to observe light transmission changes.
  • Main Results:

    • Demonstrated nanomechanical functionality in dual core optical fibers.
    • Achieved significant, movement-based optical changes exceeding traditional electro-optical effects.
    • Successfully switched light between cores by moving one core only 8 nm.

    Conclusions:

    • Nanomechanical optical fibers offer a novel approach to reconfigurable light transmission.
    • Sub-micron mechanical control provides a powerful method for manipulating optical properties.
    • This technology presents a promising pathway for advanced optical switching and communication systems.