Edinburgh Napier University

  Long Period Gratings (LPG)-based sensors are widely used due to their higher sensitivity to various measurands. However, a single grating based LPG sensor system has the disadvantage of the probe being used in transmission mode due to the broad bandwidth of the attenuation bands formed by propagation mode coupling between core-cladding modes and hence a difficulty in use when acting as a typical sensor probe. To overcome these limitations, a Michelson Interferometer type sensor configuration is considered using a LPG grating pair formed by coating a mirror at the distal end of the LPG. This sensor configuration is more convenient and able to overcome the limitations of the single LPG sensor with the shifts in the attenuation bands thus easily detectable. To configure the probe in the most suitable way, a series of tests has been carried out to determine the optimum distance between the LPG and the mirror coating for a typical grating of period 250 μm. The sensor is then used for temperature and refractive index calibration and the results presented show the detection scheme of the sensor probe thus optimized.