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Scientific Reports, ISSN 2045-2322, 12/2019, Volume 9, Issue 1, pp. 8882 - 10
The deposition of an indium oxide (In2O3) thin film on conventional planar waveguides (a coverslip and a glass slide) allows generating lossy mode resonances... 
REFRACTIVE-INDEX | HIGH-SENSITIVITY | OPTICAL-FIBER | SURFACE-PLASMON RESONANCE | MULTIDISCIPLINARY SCIENCES | Chemical sensors | Surface plasmon resonance | Sensors | Biosensors
Journal Article
Journal of Lightwave Technology, ISSN 0733-8724, 05/2019, Volume 37, Issue 10, pp. 2300 - 2306
Lossy mode resonances (LMRs) are typically obtained with optical fibre. The Kretschmann configuration is an alternative but LMRs are generated with angles... 
Optical fibers | lossy mode resonance | transparent conductive coatings | Optical fiber sensors | sensors | Indium tin oxide | Glass | Humidity sensors | thin-films | SURFACE-PLASMON RESONANCE | OPTICS | TELECOMMUNICATIONS | THICKNESS | ENGINEERING, ELECTRICAL & ELECTRONIC | Relative humidity | Humidity | Incidence angle | Planar waveguides | Sensors | Configurations
Journal Article
Sensors and Actuators. Part B, Chemical, ISSN 0925-4005, 09/2017, Volume B248, p. 836
In this work, different luminescence-based optical fiber oxygen sensors have been fabricated by means of the Layer-by-Layer nanoassembly technique. The sensing... 
Optical fibers | Polyethyleneimine | Atomic force microscopy | Oxygen | Acrylic acid | Luminescence | Atomic properties | Polyelectrolytes | Chemical compounds | Fiber optics | Thickness | Platinum | Morphology | Linearity | Oxygen probes | Cations | Sensors | Gas detectors
Journal Article
Sensors and Actuators. Part B, Chemical, ISSN 0925-4005, 02/2017, Volume B239, p. 1124
In this work, a comparative study of luminescent optical fiber oxygen sensors fabricated by means of Layer-by-Layer nanoassembly technique (LbL) has been... 
Optical fibers | Polyethyleneimine | Scanning electron microscopy | Atomic force microscopy | Oxygen | Atomic absorption analysis | Fluorescence | Polyelectrolytes | Embedding | Cationic polymerization | Contact angle | Chemical compounds | Matrix | Platinum | Comparative studies | Oxygen probes | Sensors
Journal Article
2017, Smart Sensors, Measurement and Instrumentation, ISBN 3319426249, Volume 21
This book describes important recent developments in fiber optic sensor technology and examines established and emerging applications in a broad range of... 
Optical engineering | Engineering | Spectroscopy | Electronic materials | Optical materials | Microwaves
Web Resource
Optics Express, ISSN 1094-4087, 2005, Volume 13, Issue 1, pp. 56 - 69
The deposition of an overlay of higher refractive index than the cladding in a Long Period Fiber Grating (LPFG) permits to improve the sensitivity to ambient... 
TEMPERATURE | MODE | FILTERS | REFRACTIVE-INDEX | OPTICAL-FIBERS | OPTICS | SENSORS | NUMERICAL-ANALYSIS | Optics | Physics
Journal Article
Optics Express, ISSN 1094-4087, 01/2020, Volume 28, Issue 1, p. 288
Journal Article
IEEE Sensors Journal, ISSN 1530-437X, 2008, Volume 8, Issue 3, pp. 281 - 285
Journal Article
Sensors & Actuators: B. Chemical, ISSN 0925-4005, 10/2014, Volume 202, p. 154
The fabrication of optical fiber refractometers by means of the deposition of a thin tin-dioxide coating onto an optical fiber core is presented. Tin-dioxide... 
Coatings industry | Optical instruments | Equipment and supplies | Coatings | Fiber optics
Journal Article
Journal of Lightwave Technology, ISSN 0733-8724, 06/2018, Volume 36, Issue 11, pp. 2240 - 2247
Two phenomena for enhancing the sensitivity of long-period fiber gratings are combined toward an increase of the sensitivity to strain of this type of devices:... 
Optical fiber sensors | Sensitivity | strain sensor | Dispersion turning point | Optical fiber theory | Etching | long period fiber grating | Optical fiber dispersion | Strain | etching | SINGLE | MODE | SENSITIVITY | OVERLAY DEPOSITION | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | TRANSITION | DIAMETER | OPTICS | Coupled modes | Gratings (spectra) | Sensitivity enhancement | Cladding | Dispersion
Journal Article
Applied Optics, ISSN 1559-128X, 07/2012, Volume 51, Issue 19, pp. 4298 - 4307
Lossy mode resonances can be obtained in the transmission spectrum of cladding removed multimode optical fiber coated with a thin-film. The sensitivity of... 
FILMS | SURFACE-PLASMON RESONANCE | OPTICS | Measurement | Usage | Optical instruments | Refractive index | Analysis | Innovations | Resonance | Mathematical optimization | Fiber optics
Journal Article
Sensors & Actuators: B. Chemical, ISSN 0925-4005, 09/2016, Volume 232, pp. 660 - 665
Here we show an optical refractometer with a giant sensitivity of 304,360 nm per refractive index unit (nm/RIU). This sensitivity corresponds to a resolution... 
D-shaped fiber | Lossy mode resonance | Refractometer | Optical fiber sensor | ELECTROCHEMISTRY | CHEMISTRY, ANALYTICAL | OXIDE | GRATINGS | NANOPARTICLES | INSTRUMENTS & INSTRUMENTATION | FILMS | WAVE-GUIDES | REFRACTIVE-INDEX | SURFACE-PLASMON RESONANCE | POINT | Analysis | Equipment and supplies | Fiber optics | Optical fibers | Actuators | Refractive index | Analyzers | Refractivity | Plasmons | Sensors | Devices
Journal Article
Applied Optics, ISSN 1559-128X, 07/2010, Volume 49, Issue 20, pp. 3980 - 3985
We obtain lossy mode resonances by the coupling of light from a multimode optical waveguide to a TiO2/PSS coating deposited with the layer-by-layer method. The... 
THIN-FILMS | SURFACE-PLASMON RESONANCE | OPTICS | SENSORS | LAYERS
Journal Article
Analytical Chemistry, ISSN 0003-2700, 06/2014, Volume 86, Issue 11, p. 5245
  We propose a novel multifrequency phase-modulation method for luminescence spectroscopy that uses a rectangular-wave modulated excitation source with a short... 
Analytical chemistry | Algorithms | Spectrum analysis | Luminescence | Signal processing | Harmonic analysis | Frequencies
Journal Article
Journal of Lightwave Technology, ISSN 0733-8724, 12/2010, Volume 28, Issue 23, pp. 3351 - 3357
The generation of lossy mode resonances with absorbing thin-films is analyzed with electromagnetic theory. The main differences with surface plasmon resonances... 
Couplings | Thin films | Silicon compounds | Reflectivity | Indium tin oxide | Refractive index | electromagnetic theory | indium tin oxide (ITO) | INDIUM TIN OXIDE | WAVE-GUIDES | REFRACTIVE-INDEX | SENSOR | IMMUNOSENSOR | SURFACE-PLASMON RESONANCE | OPTICS | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | Absorption | Sensing devices | Plasmons | Materials selection | Optimization | Silicon dioxide
Journal Article
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