Optimization of a long-period grating-based Mach–Zehnder interferometer for temperature measurement

## Abstract We systematically analyze the mode‐coupling effects of stress‐induced long‐period gratings (LPGs) using photonic crystal fiber (PCF). Two Mach–Zehnder interferometers based on this grating are demonstrated. These devices offer the unique advantages of being tunable and reconfigurable. T

An approach to enhance the sensitivity achievable with long period grating (LPG) technology for temperature measurement, by using a LPG pair technique to create Mach-Zehnder interferometers written into B-Ge co-doped optical fibres, is presented. The separation of the single LPGs constituting the pa

## Abstract We present a potential sensor head for the simultaneous measurement of temperature and strain based on the concatenation of two long‐period fiber gratings arc‐induced in different fibers. Despite being the temperature and strain sensitivities of the individual gratings well defined, we

We propose and demonstrate a new technique for intensity-based fiber temperature sensing based on long-period fiber grating pairs having different temperature coefficients and an absorptive core mode blocker placed between the two gratings. The constructed fiber sensor exhibits a bandpass filter res

In this paper, a quantitative analysis of an athermal design for a unique all-fiber tunable filter based on the combination of a single resonant band long period grating (LPG) with an electro-optic polymer second cladding layer is presented. The single resonant band LPG is used to select the resonan