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Updated: Jun 22, 2026

Microfluidic Fabrication of Polymeric and Biohybrid Fibers with Predesigned Size and Shape
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Microfluidic Fabrication of Polymeric and Biohybrid Fibers with Predesigned Size and Shape

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Controlling nonlinear processes in microstructured fibers using shaped pulses.

Shengbo Xu, David Reitze, R Windeler

    Optics Express
    |June 2, 2009
    PubMed
    Summary
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    Controlling ultrashort laser pulses with phase tailoring in microstructured fibers allows for modified pulse propagation and nonlinear interactions. Adaptive pulse shaping offers precise control over output spectral properties.

    Area of Science:

    • Nonlinear optics
    • Laser physics
    • Optical fiber technology

    Background:

    • Microstructured fibers enable unique light-matter interactions.
    • Ultrashort laser pulses exhibit complex propagation dynamics.
    • Controlling laser pulse characteristics is crucial for advanced applications.

    Purpose of the Study:

    • To investigate the modification of pulse propagation and nonlinear interactions in microstructured fibers.
    • To demonstrate the use of phase-tailored ultrashort laser pulses for controlling output characteristics.
    • To explore adaptive pulse shaping for spectral control.

    Main Methods:

    • Experimental investigation of phase-tailored ultrashort laser pulse propagation.
    • Adaptive pulse shaping techniques.

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    Published on: June 12, 2015

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

    Published on: February 25, 2017

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    Last Updated: Jun 22, 2026

    Microfluidic Fabrication of Polymeric and Biohybrid Fibers with Predesigned Size and Shape
    07:38

    Microfluidic Fabrication of Polymeric and Biohybrid Fibers with Predesigned Size and Shape

    Published on: January 8, 2014

    Prescribed 3-D Direct Writing of Suspended Micron/Sub-micron Scale Fiber Structures via a Robotic Dispensing System
    10:36

    Prescribed 3-D Direct Writing of Suspended Micron/Sub-micron Scale Fiber Structures via a Robotic Dispensing System

    Published on: June 12, 2015

    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

  • Numerical simulations using the nonlinear Schrödinger equation.
  • Main Results:

    • Phase-tailoring of input laser pulses alters pulse evolution and output characteristics.
    • Adaptive pulse shaping successfully controls the output pulse spectrum.
    • Numerical simulations accurately predict experimental spectral profiles.

    Conclusions:

    • Phase-tailored ultrashort laser pulses offer a method to control nonlinear interactions in microstructured fibers.
    • Adaptive pulse shaping provides a powerful tool for managing spectral properties.
    • The nonlinear Schrödinger equation effectively models these complex phenomena.