We present measurements of higher-order modes in lengths of few-moded fibers up to 0.5 km long using Spatially and Spectrally resolved (S2) imaging. Both discrete scattering events and mode-mixing due to distributed scattering are measured
We present the first detailed investigation of modal properties in hypocycloid Kagomé fibers; even w...
© 2017 Dr. Yifei WangIn the past few years, coherent detection has achieved dramatic success due to ...
We measure the mode dependent loss (MDL) of a few-mode fiber (FMF) using an improved microwave inter...
Using multimode fibers for long-haul transmission is proposed and demonstrated experimentally. In pa...
We experimentally demonstrate a 9 LP-mode (15 spatial modes) fiber with low DMD, confirmed by both t...
International audienceAll LP modes of a few mode fiber are simultaneously characterized using phase-...
In this work, the impulse response of a 39-core 3-mode fiber is measured and analyzed, finding durat...
We experimentally investigate high-capacity few-mode fiber transmission for short and medium-haul op...
The impact of bending and twisting on the impulse response matrix is investigated using optical vect...
International audienceWe propose a new solution for modal decomposition in multimode fibers, based o...
Part A: Spatial Mode-Division Multiplexing: As the capacity limits of single-mode optical fibre are ...
We study the rich multimode content of an ultra-low loss hollow core photonic bandgap fiber using tw...
We present a fast implementation of the spatial and spectral imaging (S2) technique for modal analys...
To unlock the cost benefits of space division multiplexing transmission systems, higher spatial mult...
Spatially and spectrally resolved imaging (S2 imaging) and correlation filter technique (CFT) are tw...
We present the first detailed investigation of modal properties in hypocycloid Kagomé fibers; even w...
© 2017 Dr. Yifei WangIn the past few years, coherent detection has achieved dramatic success due to ...
We measure the mode dependent loss (MDL) of a few-mode fiber (FMF) using an improved microwave inter...
Using multimode fibers for long-haul transmission is proposed and demonstrated experimentally. In pa...
We experimentally demonstrate a 9 LP-mode (15 spatial modes) fiber with low DMD, confirmed by both t...
International audienceAll LP modes of a few mode fiber are simultaneously characterized using phase-...
In this work, the impulse response of a 39-core 3-mode fiber is measured and analyzed, finding durat...
We experimentally investigate high-capacity few-mode fiber transmission for short and medium-haul op...
The impact of bending and twisting on the impulse response matrix is investigated using optical vect...
International audienceWe propose a new solution for modal decomposition in multimode fibers, based o...
Part A: Spatial Mode-Division Multiplexing: As the capacity limits of single-mode optical fibre are ...
We study the rich multimode content of an ultra-low loss hollow core photonic bandgap fiber using tw...
We present a fast implementation of the spatial and spectral imaging (S2) technique for modal analys...
To unlock the cost benefits of space division multiplexing transmission systems, higher spatial mult...
Spatially and spectrally resolved imaging (S2 imaging) and correlation filter technique (CFT) are tw...
We present the first detailed investigation of modal properties in hypocycloid Kagomé fibers; even w...
© 2017 Dr. Yifei WangIn the past few years, coherent detection has achieved dramatic success due to ...
We measure the mode dependent loss (MDL) of a few-mode fiber (FMF) using an improved microwave inter...
DOI
Add to ORKG