Single-mode optical fibres now underpin telecommunication systems and have allowed continuous increases in traffic volume and bandwidth demand whilst simultaneously reducing cost- and energy-per-bit over the last 40 years. However, it is now recognised that such systems are rapidly approaching the limits imposed by the nonlinear Kerr effect. To address this, recent research has been carried out into mitigating Kerr nonlinearities to increase the nonlinear threshold and into spatial multiplexing to offer additional spatial pathways. However, given the complexity associated with nonlinear transmission in spatial multiplexed systems subject to random inter-spatial-path nonlinearities it is widely believed that these technologies are mutually e...
Most of the digital data transmitted are carried by optical fibres, forming the great part of the na...
It is generally expected that the demand for digital data services will continue to grow, placing ev...
Optical nonlinearities play a major role in optical fibre with respect to transmission capacity and ...
Single-mode optical fibres now underpin telecommunication systems and have allowed continuous increa...
Fibre nonlinearity, more specifically Kerr, or third-order χiii, nonlinearity, is an impairment asso...
We develop an analytical theory which allows us to identify the information spectral density limits ...
In this paper, we compare the nonlinear Shannon capacity of few-mode fibre systems operating with sp...
Nonlinear performance in spatial multiplexing systems is strongly determined by the interplay betwee...
We review the latest advances on digital backward-propagation for the compensation of inter-channel ...
We review digital methods to mitigate the Kerr nonlinearity in multi-mode and/or multi-core fibres o...
We review recent studies of the nonlinear interference in spatial division multiplexing systems. Dif...
Wavelength Division Multiplexed optical networks serve as the backbone of the telecommunications inf...
Achievable information rates of optical communication systems are inherently limited by nonlinear di...
Single-mode fibers (SMFs) are approaching their nonlinear capacity limit soon, andthe new technology...
Most of the digital data transmitted are carried by optical fibres, forming the great part of the na...
It is generally expected that the demand for digital data services will continue to grow, placing ev...
Optical nonlinearities play a major role in optical fibre with respect to transmission capacity and ...
Single-mode optical fibres now underpin telecommunication systems and have allowed continuous increa...
Fibre nonlinearity, more specifically Kerr, or third-order χiii, nonlinearity, is an impairment asso...
We develop an analytical theory which allows us to identify the information spectral density limits ...
In this paper, we compare the nonlinear Shannon capacity of few-mode fibre systems operating with sp...
Nonlinear performance in spatial multiplexing systems is strongly determined by the interplay betwee...
We review the latest advances on digital backward-propagation for the compensation of inter-channel ...
We review digital methods to mitigate the Kerr nonlinearity in multi-mode and/or multi-core fibres o...
We review recent studies of the nonlinear interference in spatial division multiplexing systems. Dif...
Wavelength Division Multiplexed optical networks serve as the backbone of the telecommunications inf...
Achievable information rates of optical communication systems are inherently limited by nonlinear di...
Single-mode fibers (SMFs) are approaching their nonlinear capacity limit soon, andthe new technology...
Most of the digital data transmitted are carried by optical fibres, forming the great part of the na...
It is generally expected that the demand for digital data services will continue to grow, placing ev...
Optical nonlinearities play a major role in optical fibre with respect to transmission capacity and ...