Observation of multimodal interference in millimeter-long polymer optical fibers

Abstract: We observe multimodal interference in single-mode-multimodesingle-mode sensors comprising short polymer optical fibers (POFs) with lengths from 100 mm down to 7 mm. Characteristic spectral peaks/dips are observed not in the conventionally used telecom band but around 1000 nm. We find that the dip wavelength depends on temperature but that the sensitivity is much lower than those obtained in the longer wavelength range when longer POFs are used. We discuss the possibility that, even with the reduced sensitivity… Show more

“…Numata et al 9) reported an extremely high-temperature sensitivity of 49.8 nm °C−1 at 1300 nm using a 1.0 m long perfluorinated (PF) graded-index (GI-) POF, 4,[15][16][17] the propagation loss of which is much lower at telecommunication wavelengths than that of a PMMA-based POF. The performance of the PFGI-POF-based SMS sensors has been significantly enhanced so far, [18][19][20][21][22][23][24] while the modal interference in a partially chlorinated POF has also been reported to be of some use in developing temperature sensors. 25) Thus, not a few reports have been provided on the use of materially special POFs, but there have been no reports on the structurally special POFs, including multi-core POFs originally fabricated for the purpose of image transmission.…”

Characterization of modal interference in multi-core polymer optical fibers and its application to temperature sensing

“…Numata et al 9) reported an extremely high-temperature sensitivity of 49.8 nm °C−1 at 1300 nm using a 1.0 m long perfluorinated (PF) graded-index (GI-) POF, 4,[15][16][17] the propagation loss of which is much lower at telecommunication wavelengths than that of a PMMA-based POF. The performance of the PFGI-POF-based SMS sensors has been significantly enhanced so far, [18][19][20][21][22][23][24] while the modal interference in a partially chlorinated POF has also been reported to be of some use in developing temperature sensors. 25) Thus, not a few reports have been provided on the use of materially special POFs, but there have been no reports on the structurally special POFs, including multi-core POFs originally fabricated for the purpose of image transmission.…”

Characterization of modal interference in multi-core polymer optical fibers and its application to temperature sensing

“…This behavior was probably caused by the existence of the multiple cladding modes, being analogous to a modal interference sensor based on a single-mode-multimode-singlemode structure. [30][31][32][33][34] This may limit the temperature dynamic range, and on this point, further study is required.…”

Fiber-optic temperature sensor based on inline core-cladding-mode Mach–Zehnder interferometry with dynamically controllable sensing length

Distributed polymer optical fiber sensors: a review and outlook