Add to ORKGThe achievable throughput using high symbol rate, high order QAM is investigated for the current generation of CMOS-based DAC/ADC. The optimum symbol rate and modulation format is found to be 80GBd DP-256QAM, with an 800Gb/s net data rate
The explosion of Internet-based applications and media delivery over IP in recent years has fuelled ...
The potential application of advanced digital communication schemes in a future upgrade of the CMS T...
We demonstrate up to 9% reach gain provided by symbol-rate optimization (SRO) with PM-16QAM subcarri...
Through C+L band transmission experiments and theoretical modeling, we investigate the impact of cha...
We experimentally investigated a pilot-aided digital signal processing (DSP) chain in combination wi...
Digital signal pre-processing at the transmitter is a key enabler for next-generation optical transc...
In todays fiber-optic communication systems, the bandwidth of the photonic components, i.e. modulato...
In this paper, we simulated the ADC/DAC resolution tolerance improvement by implementing probabilist...
We establish experimentally the suitability of an all-silicon optical modulator to support future ul...
We numerically demonstrate a nonamplified 100-Gb/s doubly differential QPSK signal transmission over...
We report on a transmission experiment over high-performance pure silica core fiber (PSCF) of 16 Nyq...
We present a low-complexity fully pilot-based digital signal processing (DSP) chain designed for hig...
Optically multiplexed multi-carrier systems with channel spacing reduced to the symbol rate per carr...
We investigated the reach increase obtained through nonlinearity mitigation by means of transmission...
We demonstrate up to 9% reach gain provided by symbol-rate optimization (SRO) with PM-1...
The explosion of Internet-based applications and media delivery over IP in recent years has fuelled ...
The potential application of advanced digital communication schemes in a future upgrade of the CMS T...
We demonstrate up to 9% reach gain provided by symbol-rate optimization (SRO) with PM-16QAM subcarri...
Through C+L band transmission experiments and theoretical modeling, we investigate the impact of cha...
We experimentally investigated a pilot-aided digital signal processing (DSP) chain in combination wi...
Digital signal pre-processing at the transmitter is a key enabler for next-generation optical transc...
In todays fiber-optic communication systems, the bandwidth of the photonic components, i.e. modulato...
In this paper, we simulated the ADC/DAC resolution tolerance improvement by implementing probabilist...
We establish experimentally the suitability of an all-silicon optical modulator to support future ul...
We numerically demonstrate a nonamplified 100-Gb/s doubly differential QPSK signal transmission over...
We report on a transmission experiment over high-performance pure silica core fiber (PSCF) of 16 Nyq...
We present a low-complexity fully pilot-based digital signal processing (DSP) chain designed for hig...
Optically multiplexed multi-carrier systems with channel spacing reduced to the symbol rate per carr...
We investigated the reach increase obtained through nonlinearity mitigation by means of transmission...
We demonstrate up to 9% reach gain provided by symbol-rate optimization (SRO) with PM-1...
The explosion of Internet-based applications and media delivery over IP in recent years has fuelled ...
The potential application of advanced digital communication schemes in a future upgrade of the CMS T...
We demonstrate up to 9% reach gain provided by symbol-rate optimization (SRO) with PM-16QAM subcarri...