Title :
Temperature sensor based on a liquid crystal plasmonic wire grating
Author :
Algorri, J.F. ; Garcia-Camara, B. ; Urruchi, V. ; Sanchez-Pena, J.M.
Author_Institution :
Electron. Technol. Dept., Carlos III Univ. of Madrid, Leganes, Spain
Abstract :
In this work, a novel liquid crystal (LC) temperature sensor, based on a Silver (Ag) wire grating, is proposed and theoretically analyzed. The structure is composed of several Ag nanowires distributed in a parallel configuration (see Fig. 1). These wires can be deposited onto a silica glass or plastic substrate. Another substrate positioned on it is separated by spacers of 1.2 μm. The resulting cavity is filled with an E7 LC. The high thermo-optic coefficient of the LC is used to modify the plasmonic resonance of the wire grating. The structure is simple and easily scalable. The application of a 420 nm laser allows an output power ratio sensitivity of 16.7·10-2 dB/°C with a high linearity. This is ten times more than other related temperature sensors based on light intensity variation.
Keywords :
liquid crystal devices; nanosensors; nanowires; plasmonics; silver; temperature sensors; thermo-optical devices; Ag; E7 LC; liquid crystal plasmonic wire grating; nanowires; plasmonic resonance; plastic substrate; silica glass; temperature sensor; thermo-optic coefficient; wavelength 420 nm; Optical fiber sensors; Optical fibers; Plasmons; Sensitivity; Temperature; Temperature measurement; Temperature sensors; Temperature sensing; liquid crystal; nanowires; plasmonic resonance;
Conference_Titel :
SENSORS, 2014 IEEE
Conference_Location :
Valencia
DOI :
10.1109/ICSENS.2014.6985016
