Listar por autor UPNA "Domínguez Rodríguez, Ismel"
Mostrando ítems 1-7 de 7
-
Desarrollo de sensores multiparámetro basados en resonancias por modos con pérdidas usando guía de onda plana
Esta tesis se enfoca en explotar el fenómeno de resonancia por modos con pérdidas (LMR) hacia el desarrollo de aplicaciones que van más allá de la detección de un solo parámetro con una fibra óptica. Después de una ... -
Electrochemical lossy mode resonance for the detection of manganese ions
In this work we propose electrochemical lossy mode resonance (eLMR) as a powerful method for the detection of manganese (Mn) ions. The sensor is based on a simple planar waveguide (sodasingle bondlime glass coverslip) ... -
High sensitivity lossy-mode resonance refractometer using low refractive index PFA planar waveguide
In this work a new strategy to improve the sensitivity of refractometers based on lossy-mode resonances has been proved. The proximity of the PFA (tetrafluoroethylene-perfluoro polymer) substrate refractive index to that ... -
Interdigital concept in photonic sensors based on an array of lossy mode resonances
Multi-parameter detection is key in the domain of sensors. Here it is demonstrated that an indium tin oxide (ITO) nanocoating can be used to generate multiple lossy mode resonances (LMRs) in the optical spectrum. To achieve ... -
Multichannel refractometer based on lossy mode resonances
In this work a new multiparameter sensor platform based on lossy mode resonances is presented. The structure consists of a soda-lime optical slab waveguide butt-coupled to multimode optical fibers. A variable thickness ... -
Ordered titanium dioxide nanotubes for lossy-mode resonance-based humidity sensing
Ordered titanium dioxide nanotubes on indium tin oxide as a structure supporting lossy-mode resonance is reported. Capability for application of the structure for optical humidity sensing is shown as an application example. -
Spectral measurements with hybrid LMR and SAW platform for dual parameter sensing
Lossy mode resonance (LMR)-based optical sensors change their wavelength upon contact with substances or gases. This allows developing applications to detect the refractive index of the surrounding medium and even the ...