Zhenhai Xie scite author profile

We propose and demonstrate a thinned fiber based Mach-Zehnder interferometer for multi-purpose sensing applications. The sensor head is formed by all-fiber in-line singlemode-multimode-thinned-singlemode (SMTS) fiber structure, only using the splicing method. The principle of operation relies on the effect that the thinned fiber cladding modes interference with the core mode by employing a multimode fiber as a mode coupler. Experimental results showed that the liquid refractive index information can be simultaneously provided from measuring the sensitivity of the liquid level. A 9.00 mm long thinned fiber sensor at a wavelength of 1538.7228 nm exhibits a water level sensitivity of -175.8 pm/mm, and refractive index sensitivity as high as -1868.42 (pm/mm)/RIU, respectively. The measuring method is novel, for the first time to our knowledge. In addition, it also demonstrates that by monitoring the wavelength shift, the sensor at a wavelength of 1566.4785 nm exhibits a refractive index sensitivity of -25.2935 nm/RIU, temperature sensitivity of 0.0615 nm/°C, and axial strain sensitivity of -2.99 pm/με, respectively. Moreover, the sensor fabrication process is very simple and cost effective.

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In-line fiber Mach–Zehnder interferometer for simultaneous measurement of refractive index and temperature based on thinned fiber

Xia

Xie

et al. 2012

Sensors and Actuators A: Physical

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Simultaneous measurement of refractive index and temperature using thinned fiber based Mach–Zehnder interferometer

Xia

Xie

et al. 2012

Optics Communications

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Fiber Fault Detection With High Accuracy Using Chaotic Signal From an SOA Ring Reflectometry

Xie

Xia

Wang

et al. 2013

IEEE Photon. Technol. Lett.

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Zhenhai Xie

All-fiber Mach-Zehnder interferometers for sensing applications

In-line fiber Mach–Zehnder interferometer for simultaneous measurement of refractive index and temperature based on thinned fiber

Simultaneous measurement of refractive index and temperature using thinned fiber based Mach–Zehnder interferometer

Fiber Fault Detection With High Accuracy Using Chaotic Signal From an SOA Ring Reflectometry

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