We demonstrate 5-channel WDM DD transmissions at 1550 nm over 80 km of SSMF with a record data rate per channel of 510 Gbps.
With the exponential growth of the data traffic, dense wavelength-division-multiplexing (DWDM) is required for future data center interconnect (DCI) applications with increasing demand for spectral
We demonstrate 5-channel WDM DD transmissions over 80 km of SSMF with a net data rate per channel of 432 Gbps using either Kramers-Kronig detection or a low-complexity interference cancellation sch
We propose a novel probabilistically shaped asymmetric 4-QAM for high-loss channels such as unrepeatered fiber links or free-space communications.
We compare 100 Gb/s transmission with 40 GHz instead of standard 50 GHz spacing, and describe a 60 x 100 Gb/s unrepeatered transmission experiment over a record distance of 437 km of ultra-low loss
Abstract: We demonstrate the use of polarization alternation to dramatically improve performance in 42.7-Gb/s WDM transmission.
We present a spatial mode multiplexer for 6 modes with low loss and high mode selectivity.
We propose and validate a new radio-over-fibre (RoF) home network architecture allowing a 60 GHz wireless signal bidirectional distribution, based on a set-up of new 60 GHz components (mode locked
In this paper, we perform a frequency up-conversion from 4.5 GHz to 60 GHz of an OFDM signal compliant to the IEEE802.15.3c pre-standard (3.03 Gbps) by directly modulating a Fabry-Perot mode-locked
Some of the work carried out within the European integrated project Integrated Photonic mm-Wave Functions for Broadband Connectivity (IPHOBAC) on the development of photonic components and radio-ov
