We derive analytic formulas for the improvement in effective optical signal-to-noise ratio brought by a digital nonlinear compensator for dispersion uncompensated links. By assuming Gaussian distributed nonlinear noise, we are able to take both nonlinear signal-to-signal and nonlinear signal-to-noise interactions into account. In the limit of weak nonlinear signal-to-noise interactions, we derive an upper boundary of the OSNR improvement. This upper boundary only depends on fiber parameters as well as on the total bandwidth of the considered wavelength-division multiplexing (WDM) signal and the bandwidth available for back propagation. We discuss the dependency of the upper boundary on different fiber types and also the OSNR improvement in ...
We address perturbative models for the impact of nonlinear propagation in uncompensated links. We co...
This chapter describes a universal postcompensation scheme to compensate all deterministic impairmen...
The performance of long-haul coherent optical systems is fundamentally limited by fiber nonlinearity...
We derive analytic formulas for SNR improvement by a digital nonlinear compensator for uncompensated...
In this paper, we investigate the performance limits of electronic chromatic dispersion compensation...
We use an analytical model for fiber propagation in uncompensated optical systems to analyze the ban...
The performance of a single-channel fiber-optical link is evaluated with linear (dispersive) and non...
Fiber-optical communication systems form the backbone of the internet, enabling global broadband dat...
The nonlinear interaction between signal and ASE is investigated with our time-domain enhanced Gauss...
Using the GN-model, we derive simple equations to assess the impact of non-linear interference in un...
Advanced signal processing, such as multi-channel digital back propagation and mid span optical phas...
Recent results on analytical modeling of non-linear interference due to signal propagation in multi-...
We review recent results on analytical modeling of non-linear interference in multispan optical syst...
\ua9 2017, OSA - The Optical Society. All rights reserved. This paper investigates the impact of tra...
In this Letter, we theoretically and numerically analyze the performance of coherent optical transmi...
We address perturbative models for the impact of nonlinear propagation in uncompensated links. We co...
This chapter describes a universal postcompensation scheme to compensate all deterministic impairmen...
The performance of long-haul coherent optical systems is fundamentally limited by fiber nonlinearity...
We derive analytic formulas for SNR improvement by a digital nonlinear compensator for uncompensated...
In this paper, we investigate the performance limits of electronic chromatic dispersion compensation...
We use an analytical model for fiber propagation in uncompensated optical systems to analyze the ban...
The performance of a single-channel fiber-optical link is evaluated with linear (dispersive) and non...
Fiber-optical communication systems form the backbone of the internet, enabling global broadband dat...
The nonlinear interaction between signal and ASE is investigated with our time-domain enhanced Gauss...
Using the GN-model, we derive simple equations to assess the impact of non-linear interference in un...
Advanced signal processing, such as multi-channel digital back propagation and mid span optical phas...
Recent results on analytical modeling of non-linear interference due to signal propagation in multi-...
We review recent results on analytical modeling of non-linear interference in multispan optical syst...
\ua9 2017, OSA - The Optical Society. All rights reserved. This paper investigates the impact of tra...
In this Letter, we theoretically and numerically analyze the performance of coherent optical transmi...
We address perturbative models for the impact of nonlinear propagation in uncompensated links. We co...
This chapter describes a universal postcompensation scheme to compensate all deterministic impairmen...
The performance of long-haul coherent optical systems is fundamentally limited by fiber nonlinearity...