Sensitivity of fiber‐based modalmetric devices intended for optical detection of acoustic signals

The basic structure of fiber‐based modalmetric devices consists of a single‐mode fiber (SMF) spliced to a sensitive multimode fiber (s‐MMF) strand. The aim of this article, is to show and compare the sensitivity measurement results amongst of distinct implementations of lumped multimode interference...

Full description

Saved in:
Bibliographic Details
Published in:Microwave and optical technology letters 2020-03, Vol.62 (3), p.999-1008
Main Authors: Freitas, Taiane A. M. G., Silva, Viviane H., Ribeiro, Ricardo M.
Format: Article
Language:English
Subjects:
acoustic communications
acoustic monitoring
Bragg gratings
Carrier frequencies
Devices
Diameters
modal interferometer
modalmetric
Optical communication
optoacoustic receiver
Sensitivity
ultrasound
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The basic structure of fiber‐based modalmetric devices consists of a single‐mode fiber (SMF) spliced to a sensitive multimode fiber (s‐MMF) strand. The aim of this article, is to show and compare the sensitivity measurement results amongst of distinct implementations of lumped multimode interference fiber‐optic reflecting (R‐MMI) and transmitting (T‐MMI) modalmetric detectors, and a fiber Bragg grating (FBG) device, each one working as uncalibrated detector of ultrasound acoustic‐signals. All experiments were performed at 42.9 kHz carrier frequency and most of them were at 1551.5 nm wavelength. In all cases, the interaction length of the s‐MMF for a single traveling was kept at 50 mm and the fiber ends of R‐MMI samples were not mirrored. The sensitivity was observed to increase when: the modalmetric device was used instead of the FBG; the core diameter of s‐MMF was increased from 50 μm to 62.5 μm; the SMF/s‐MMF connection was angularly misaligned from 0° to 8°; the feeding optical power level was increased; the interaction length of s‐MMF was doubled and the wavelength probe was reduced from 1551.5 nm to 1520 nm. The dependence of the modalmetric devices' transmission with the length of the s‐MMF and wavelength was numerically calculated. It was concluded that modalmetric devices are highly sensitive and can be further improved yet, but have a stochastic nature in their present implementation.
ISSN:0895-2477
1098-2760
DOI:10.1002/mop.32136