Add to ORKGWe measure inter-modal Rayleigh backscattering in few-mode optical fibers and compare the experimental results with simulation results obtained from newly-developed analytical formulae. Excellent agreement between theory and experiment allows investigation of mode-coupling dynamics using OTDR
International audienceThe evolution of the light intensity along an optical waveguide is evaluated b...
We present a theoretical analysis into the fundamental physical mechanisms contributing to backscatt...
We review the measurements of inter-modal nonlinear effects performed on a 4.7-km few-mode fiber whe...
The extremely low loss of silica fibers has enabled the telecommunication revolution, but single-mod...
We experimentally characterize the characteristics of Rayleigh backscattering arising in few-mode fi...
We experimentally characterize the mode dependent characteristics of Rayleigh backscattering (RB) ar...
A new theory of backscattering in single-mode fibers is presented. It allows backscatter waveforms t...
Distributed characterization of mode coupling is key to understanding the behavior of multimode and ...
A new technique for comparing the Rayleigh scattering coefficients of single-mode step index fibers ...
It has become recognised of late that when some of the highly coherent laser sources that are now av...
The ratio of the backscattered power to the input pulse energy is measured in single-mode optical fi...
We propose a modification of the Rayleigh scattering method, which allows for measurement of polariz...
We present a novel method to characterize the modal birefringence in a few-mode fiber (FMF), based o...
A novel technique to measure differential group delay and modal birefringence along few mode fibers ...
This paper presents a completely new method able to characterize polarization mode dispersion (PMD) ...
International audienceThe evolution of the light intensity along an optical waveguide is evaluated b...
We present a theoretical analysis into the fundamental physical mechanisms contributing to backscatt...
We review the measurements of inter-modal nonlinear effects performed on a 4.7-km few-mode fiber whe...
The extremely low loss of silica fibers has enabled the telecommunication revolution, but single-mod...
We experimentally characterize the characteristics of Rayleigh backscattering arising in few-mode fi...
We experimentally characterize the mode dependent characteristics of Rayleigh backscattering (RB) ar...
A new theory of backscattering in single-mode fibers is presented. It allows backscatter waveforms t...
Distributed characterization of mode coupling is key to understanding the behavior of multimode and ...
A new technique for comparing the Rayleigh scattering coefficients of single-mode step index fibers ...
It has become recognised of late that when some of the highly coherent laser sources that are now av...
The ratio of the backscattered power to the input pulse energy is measured in single-mode optical fi...
We propose a modification of the Rayleigh scattering method, which allows for measurement of polariz...
We present a novel method to characterize the modal birefringence in a few-mode fiber (FMF), based o...
A novel technique to measure differential group delay and modal birefringence along few mode fibers ...
This paper presents a completely new method able to characterize polarization mode dispersion (PMD) ...
International audienceThe evolution of the light intensity along an optical waveguide is evaluated b...
We present a theoretical analysis into the fundamental physical mechanisms contributing to backscatt...
We review the measurements of inter-modal nonlinear effects performed on a 4.7-km few-mode fiber whe...