Long period grating in multicore optical fiber:an ultra-sensitive vector bending sensor for low curvatures


Autoria(s): Saffari, Pouneh; Allsop, Thomas; Adebayo, Adedotum; Webb, David; Haynes, Roger; Roth, Martin M.
Data(s)

15/06/2014

Resumo

Long period grating was UV inscribed into a multicore fiber consisting of 120 single mode cores. The multicore fiber that hosts the grating was fusion spliced into a single mode fiber at both ends. The splice creates a taper transition between the two types of fiber that produces a nonadiabatic mode evolution; this results in the illumination of all the modes in the multicore fiber. The spectral characteristics of this fiber device as a function of curvature were investigated. The device yielded a significant spectral sensitivity as high as 1.23 nm/m-1 and 3.57 dB/m-1 to the ultra-low curvature values from 0 to 1 m-1. This fiber device can also distinguish the orientation of curvature experienced by the fiber as the long period grating attenuation bands producing either a blue or red wavelength shift. The finite element method (FEM) model was used to investigate the modal behavior in multicore fiber and to predict the phase-matching curves of the long period grating inscribed into multicore fiber. © 2014 Optical Society of America.

Formato

application/pdf

Identificador

http://eprints.aston.ac.uk/26123/1/Ultra_sensitive_vector_bending_sensor_for_low_curvatures.pdf

Saffari, Pouneh; Allsop, Thomas; Adebayo, Adedotum; Webb, David; Haynes, Roger and Roth, Martin M. (2014). Long period grating in multicore optical fiber:an ultra-sensitive vector bending sensor for low curvatures. Optics Letters, 39 (12), pp. 3508-3511.

Relação

http://eprints.aston.ac.uk/26123/

Tipo

Article

PeerReviewed