Add to ORKGIn-line intensity-based and Fabry-Perot silica optical fiber sensors have been developed to measure strain and temperature at temperatures up to 1500°F. The intensity-based sensor is an air gap splice in which the gap spacing changes as the length of the senso
Strain sensors based on optical fiber technology have a number of advantages over more conventional ...
International audienceWe propose a fiber Bragg grating based optical sensor to measure and localize ...
International audienceWe propose a fiber Bragg grating based optical sensor to measure and localize ...
In-line intensity-based and Fabry-Perot silica optical fiber sensors have been developed to measure ...
Optic fiber sensors are employed in a variety of applications for the remote measurement of various ...
An extrinsic Fabry-Perot interferometric (EFPI) fiber optic sensor is presented for measurement of s...
grantor: University of TorontoThe development of temperature compensated fiber optic strai...
The effect of strain upon the fluorescence intensity ratio technique of optical fiber based temperat...
In this paper, a Fabry-Perot interferometer structure (FPIS) cascaded with a regenerated grating (RG...
In the last few years an increased demand in the sensor market has been occurred and nowa- days the ...
Optical fiber technology has been under development for the past 50 years, and this technology owe t...
This paper summarizes our recent research progresses in developing optical fiber harsh environment s...
High-temperature measurements above 1000 °C are critical in harsh environments such as aerospace, me...
Accurate measurement of strain is one of the most important issues for high temperature environments...
Accurate measurement of strain is one of the most important issues for high temperature environments...
Strain sensors based on optical fiber technology have a number of advantages over more conventional ...
International audienceWe propose a fiber Bragg grating based optical sensor to measure and localize ...
International audienceWe propose a fiber Bragg grating based optical sensor to measure and localize ...
In-line intensity-based and Fabry-Perot silica optical fiber sensors have been developed to measure ...
Optic fiber sensors are employed in a variety of applications for the remote measurement of various ...
An extrinsic Fabry-Perot interferometric (EFPI) fiber optic sensor is presented for measurement of s...
grantor: University of TorontoThe development of temperature compensated fiber optic strai...
The effect of strain upon the fluorescence intensity ratio technique of optical fiber based temperat...
In this paper, a Fabry-Perot interferometer structure (FPIS) cascaded with a regenerated grating (RG...
In the last few years an increased demand in the sensor market has been occurred and nowa- days the ...
Optical fiber technology has been under development for the past 50 years, and this technology owe t...
This paper summarizes our recent research progresses in developing optical fiber harsh environment s...
High-temperature measurements above 1000 °C are critical in harsh environments such as aerospace, me...
Accurate measurement of strain is one of the most important issues for high temperature environments...
Accurate measurement of strain is one of the most important issues for high temperature environments...
Strain sensors based on optical fiber technology have a number of advantages over more conventional ...
International audienceWe propose a fiber Bragg grating based optical sensor to measure and localize ...
International audienceWe propose a fiber Bragg grating based optical sensor to measure and localize ...