We present a high-sensitivity curvature and strain Mach-Zehnder interferometer (MZI) fiber sensor based on a configuration of no-core fiber (NCF) and four-core fiber (FCF). We used an optical fiber fusion splicer to directly splice a segment of FCF between two segments of NCF, with both the FCF and NCF made of SiO2, where the FCF exhibits multi-path interference characteristics that allow for higher sensitivity. The NCF, with its self-focusing property, excites higher-order modes, which split and transmit it into the four cores of the FCF. The experimental results show that within a curvature range of 0.0104 m-1-0.1515 m-1, the maximum sensitivity can reach -78.04 dB/m-1 with a high linear value of ~0.99. Additionally, the strain response is also experimentally studied. In the range of 0-600 με, the maximum strain sensitivity is -6.49 pm/με. The sensor demonstrates high curvature and strain sensitivity, indicating its potential applications in sensing measurements.
Keywords: Mach–Zehnder interferometer; curvature sensor; fiber optic sensor; four-core fiber; no-core fiber.