Journal
MEASUREMENT
Volume 221, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.measurement.2023.113561
Keywords
High birefringence fiber; Fiber sensor; Sagnac interferometer; Temperature sensor; Strain sensor
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This study theoretically analyzes and experimentally demonstrates the relationship between the temperature and strain sensitivities and the waist diameter of the tapered high birefringence fiber (THBF) in a Sagnac interferometer. Sagnac interference is sensitive to both temperature and strain when the waist diameter is large, but the sensitivities decrease as the waist diameter decreases. On the other hand, when the waist diameter of the THBF is sufficiently small, both Sagnac and modal interferences are simultaneously generated, with the former only sensitive to temperature and the latter sensitive to both temperature and strain. The proposed THBF Sagnac interferometer enables simultaneous measurement of temperature and strain variations, with the strain-insensitive characteristic of Sagnac interference facilitating the discrimination between temperature and strain variations.
The relation of the temperature and strain sensitivities to the waist diameter of the tapered high birefringence fiber (THBF) in Sagnac interferometer is theoretically analyzed and experimentally demonstrated. With a large waist diameter, the occurred Sagnac interference shows sensitive to both temperature and strain. The temperature and strain sensitivities decline as the waist diameter decreases. By contrast, when the waist diameter of the THBF is sufficiently small, both Sagnac and modal interferences are simultaneously generated. The former is only sensitive to temperature, whereas the latter is sensitive to both temperature and strain. As the waist diameter of the THBF decreases, the temperature sensitivities of both the Sagnac and modal interferences diminish, but the strain sensitivity of the modal interference improves. Therefore, the proposed THBF Sagnac interferometer enables simultaneous measurement of temperature and strain variations. Importantly, the strain-insensitive characteristic of Sagnac interference facilitates the discrimination between temperature and strain variations.
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