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Publicações

Publicações por Ariel Guerreiro

2017

SPR optimization using metamaterials in a D-type PCF refractive index sensor

Autores
Santos, DF; Guerreiro, A; Baptista, JM;

Publicação
OPTICAL FIBER TECHNOLOGY

Abstract
Using the finite element method (FEM), this paper presents a numerical investigation of the performance analysis of a D-type photonic crystal fiber (D-type PCF) for refractive index sensing, based on surface plasmon resonance (SPR) with a planar structure made out of a metamaterial. COMSOL Multiphysics was used to evaluate the design of the referred refractive index optical fiber sensor, with higher accuracy and considerable economy of time and resources. A study of different metamaterials concentrations conformed by aluminum oxide (Al2O3) and silver (Ag) is carried out. Another structural parameters, which influences the refractive index sensor performance, the thickness of the metamaterial, is also investigated. The results indicate that the use of metamaterials provides a way of improving the performance of SPR sensors on optical fibers and allows to tailor the working parameters of the sensor.

2014

SPR sensors in POF: a new experimental configuration for extended refractive index range and better SNR

Autores
Cennamo, N; Coelho, L; Guerreiro, A; Jorge, PAS; Zeni, L;

Publicação
23RD INTERNATIONAL CONFERENCE ON OPTICAL FIBRE SENSORS

Abstract
In this work we present a new low cost SPR (Surface Plasmon Resonance) sensor configuration based on efficient higher-order mode filtering in plastic multimode fibers, using a tapered POF (Plastic Optical Fiber) after the sensor system, without decreasing the sensitivity of the sensor. In particular, we present the experimental results obtained with this new configuration. The experimental results have shown as the tapered POF after the sensor system influences the performances in terms of refractive index range and Signal-to-Noise Ratio (SNR).

2013

Ag-nanowire metamaterials: Spectral reflectance analysis and homogenization models

Autores
Leite, IT; Silva, AO; Hierro Rodriguez, A; Sousa, CT; Fernandez Garcia, MP; Teixeira, JM; Araujo, JP; Giraldi, MT; Costa, JWCA; Viegas, D; Jorge, PAS; Guerreiro, A;

Publicação
8TH IBEROAMERICAN OPTICS MEETING AND 11TH LATIN AMERICAN MEETING ON OPTICS, LASERS, AND APPLICATIONS

Abstract
In this work, we address a study of the spectral reflectance of silver nanowire metamaterials in the visible and near-infrared regions. To this end, several samples were fabricated with different fill-ratios and lattice constants, and their respective optical responses characterized in terms of these parameters. We perform a direct comparison between the collected experimental data with the values predicted by different analytical homogenization models to provide a better understanding of the effective optical behavior of this kind of metamaterials.

2013

Exciting the optical response of nanowire metamaterial films on the tip of optical fibres

Autores
Leite, IT; Hierro Rodriguez, A; Silva, AO; Teixeira, JM; Sousa, CT; Fernandez Garcia, MP; Araujo, JP; Jorge, PAS; Guerreiro, A;

Publicação
PHYSICA STATUS SOLIDI-RAPID RESEARCH LETTERS

Abstract
This Letter reports on the assembly on the tip of an optical fibre of a metamaterial film fabricated by a self-assembly bottom-up method, composed of silver nanowires embedded in an alumina matrix. By illuminating the film through the fibre in a reflection configuration, we observe experimentally the optical response of the metamaterial in agreement with theoretical predictions and interpreted as the excitation of surface plasmon-polaritons in the cylindrical surface of the nanowires. These results pave the way for low-cost optical fibre devices that incorporate metamaterial films. (c) 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim

2016

Hydrogen Optical Metamaterial Sensor Based on Pd Dendritic Nanostructures

Autores
Rocha Rodrigues, P; Hierro Rodriguez, A; Guerreiro, A; Jorge, P; Santos, JL; Araujo, JP; Miguel Teixeira, JM;

Publicação
CHEMISTRYSELECT

Abstract
In this manuscript we present a new type of hydrogen optical metamaterial sensor based on the fabrication of Pd dendritic nanostructures. The fabrication of the sensor relies on a cheap self-assembly process based on the pulsed electrodeposition method in nanoporous alumina templates. By performing optical transmission measurements, we demonstrate how this sensor can monitor hydrogen gas concentrations at room temperature either by evaluating the rate of signal decay during the Pd hydrogen absorption (transient regime) or by measuring the total variation in signal once the system achieves the equilibrium state (stationary regime). We take into account the effects of the Pd-hydrogen phase transition and its size dependency to explain the kinetics of the hydrogen absorption and desorption in the studied samples. By using the transient detection method, the sensor is able to detect in approximately 50 s the explosive H-2(g) concentration threshold of 4% v/v at atmospheric pressure and room temperature.

2013

A remote long-period grating sensor with electrical interrogation assisted by Raman amplification

Autores
Coelho, TVN; Pontes, MJ; Carvalho, JP; Santos, JL; Guerreiro, A;

Publicação
OPTICS AND LASER TECHNOLOGY

Abstract
In this work, we present a method to predict the behaviour of a remote optical fiber sensor system based on a long period grating, Raman amplification and electrical interrogation were investigated. The interrogation unit is composed by two fiber Bragg gratings modulated by two piezoelectrics transductors. Optical fiber sensor systems are typically limited to operate at distances of only few kilometers due to the attenuation effects and noise that adversely affects the performance of the sensor interrogation process. We present experimental and simulation results obtained in the context of analysis of remote optical fiber sensors. The simulation models use numerical methods to compute the Raman interaction between the pumps and the sensor signals and allow speeding up the analyses regarding the setup to be experimentally implemented to measure environmental temperature. The results obtained show that under Raman amplification the power ratio between the two central wavelengths of the FBGs has a linear relation with the change of the LPG resonance induced by temperature variation.

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