Temperature-independent ultra-sensitive refractive index sensor based on hollow-core silica tubes and tapers.

Abstract

We demonstrate a simple and ultra-sensitive refractive index (RI) sensor using a hollow-core silica tube (HCST) sandwiched between an up-taper and a down-taper in single mode fibers (SMF). According to our theoretical analysis, the interference spectrum comes from a combination of a three-beam multi-mode interference and anti-resonance effects. RI sensing will affect the mode interference. By demodulating the fringe contrast of the interference spectra, an ultrahigh sensitivity of -120.18 dB/RIU is achieved, implying a RI resolution of ∼ 8×10-6 in the RI range from 1.35 to 1.43. What's more, the sensor has great temperature insensitivity of -0.0085 dB/°C, indicating an extremely low cross sensitivity of 7×10-5 RIU/°C, which further benefits its practical application. The proposed configuration does not require special fiber or fabrication technique. In addition, the sensor's other merits such as simple and compact structure and ease offabrication offer the potential in biochemical sensing applications.