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Hydrogen Sensing Using Palladium Coated Long Period Gratings
Richard Carter
School of Engineering & Physical Sciences
Institute of Photonics and Quantum Sciences
Research output
:
Thesis
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Doctoral Thesis
Overview
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Dive into the research topics of 'Hydrogen Sensing Using Palladium Coated Long Period Gratings'. Together they form a unique fingerprint.
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INIS
coatings
20%
concentration
20%
contamination
20%
deposition
20%
ellipsometry
20%
fibers
20%
gratings
100%
hydrogen
100%
hydrogen 1
20%
layers
40%
optical fibers
20%
optical properties
20%
palladium
100%
plasmons
20%
refractive index
40%
resonance
20%
roughness
20%
scanning electron microscopy
20%
sensitivity
40%
sensors
40%
solutions
20%
spectra
20%
sputtering
20%
surfaces
40%
thin films
20%
transmission
20%
values
20%
variations
20%
xps
20%
Engineering
Delamination
100%
Limitations
100%
Operating Temperature
100%
Optical Fiber
100%
Refractive Index
100%
Refractive Index Profile
100%
Surface Plasmon
100%
Thin Films
100%
Transmissions
100%
Material Science
Delamination
50%
Fiber Optics
50%
Optical Property
50%
Palladium
100%
Refractive Index
100%
Scanning Electron Microscopy
50%
Surface Plasmon
50%
Surface Roughness
50%
Thin Films
50%
Chemical Engineering
Ellipsometry
100%