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Fabrication of Submicron-Diameter and Taper Fibers Using Chemical Etching
Hani J. Kbashi
Aston Institute of Photonic Technologies (AiPT)
School of Computer Science and Digital Technologies
College of Engineering and Physical Sciences
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Keyphrases
Chemical Etching
100%
Submicron
100%
HF Acid
100%
Taper Fiber
100%
Core Diameter
66%
Core Structure
66%
Optical Fiber
33%
Fiber Taper
33%
Tapered Fiber
33%
Room Temperature
33%
Silica
33%
Silica Fiber
33%
Fiber Core
33%
Online Monitoring
33%
Nanofibers
33%
Operation Regimes
33%
Power Transmitted
33%
Light Power
33%
Long Length
33%
Grad
33%
Photonic Nanowire
33%
Wet Etch Process
33%
Engineering
Fiber Optics
100%
Core Diameter
100%
Silicon Dioxide
50%
Photonics
50%
Room Temperature
50%
Silica Fibre
50%
Fiber Core
50%
Nanowire
50%
Evanescent
50%
Nanofiber
50%
Material Science
Glass Fiber
100%
Silicon Dioxide
100%
Chemical Etching
100%
Nanowire
50%
Nanofiber
50%
Chemical Engineering
Nanowire
100%