A novel type of fiber optic displacement sensor based on Gaussian beam interference

We studied a fiber-optic temperature sensor based on the interference between LP and LP modes of a circularly symmetric few mode fiber. 01 02 Theoretical analysis predicting the sensitivity of such a sensor is presented; the predictions are in excellent agreement with the experimentally measured v

Figure 7 Radiation patterns of the model a with H s 0.35 m. --experimental results, ᎏᎏ theoretical results eight bands. The experimental and theoretical results are shown in Figure 7. It must be pointed out that the ground plane is not too large to keep the maximum radiating in the direction s 90Њ.

## Abstract The performance of the fiber‐optic displacement sensor with beam‐through detection technique is investigated. The effects of lateral and axial displacements on the detected output voltage are investigated for various core's diameters of the sensor. The highest sensitivity is obtained at

A simple fiber optic displacement sensor is presented using a multimode plastic bundled fiber and the intensity modulation technique. The performance of the sensor is compared for different types of probes and targets. The probe with the largest receiving core diameter demonstrates the highest linea