Demultiplexing of fibre Bragg grating temperature and strain sensors

## Abstract A novel temperature‐independent strain sensor based on a fiber Bragg grating is demonstrated. The front section of the fiber Bragg grating is fixed to a crystal plate, and the other section is linearly etched in HF acid. The reflected power of the grating varies linearly with strain and

## Abstract In this work, we present a fiber Bragg grating interrogation based on high‐birefringence fiber loop mirror for strain–temperature discrimination. Due to spectral response of the optical filters it is possible to determine the variation of the wavelength and the optical power of the Brag

## Abstract A smart laminated composite with a simple geometry was produced with embedded fiber Bragg grating sensors. The smart structure is composed of two Bragg gratings located in regions of different thicknesses of the laminated composite. Although one of the Bragg gratings is embedded between

## Abstract An embedded dual fiber Bragg gratings sensor for simultaneous measurement of temperature and load (strain) is proposed and experimentally demonstrated. Two nearly identical gratings are mounted on opposite side of an arch‐shaped steel strip. The grating in concave and convex position ex

## Abstract A new scheme is proposed for simultaneous strain and temperature measurement with a single‐fiber Bragg grating. The grating sensor was written on the splice joint between two fibers and has two resonance peaks because of the different refractive index between the two fibers. By bonding

Figure 5 Theoretical and experimental results for the gain of various antenna configurations experiments. The requirements on the ground-plane spacing are more and more relaxed then. REFERENCES 1. L. Giauffret and J.M. Laheurte, Microstrip antennas fed by con-Ž . ductor backed coplanar waveguides, E