Modern telecommunication networks have to provide enormous data transport capacity in order to enable the dramatic annual internet traffic growth rates.
We show how error free 100Gbit/s transmission to the moon can be achieved by reworking technologies considered for optical feeders on artificial satellites.
We present our prototype solution for transmitting 100 Mb/s Ethernet data over large core (1 mm) step-index polymer optical fiber (POF), as one of the final results of the EU-funded project POF-ALL
Successful transmission of live (real-time) video traffic is demonstrated using a prototype 100-Gb/s single-polarization differential quadrature phase shift keying (DQPSK) transmitter and receiver
We discuss the generation, detection, and long-haul transmission of single-polarization differential quadrature phase shift keying (DQPSK) signals at a line rate of 53.5-Gbaud to support a net info
Exploding data volume on the network has made 100 G technology a topic of great interest. To implement such systems, very high speed electronic and electro-optic system components are essential.
Optical communications is a quickly evolving field, driven by the ever-increasing need for communication bandwidth that has beenand still isprofoundly transforming our society, with telepresence
We demonstrate an intensity-modulation direct-detection PAM-4 transceiver generating optical signals at record symbol rates of 84 and 100 Gbaud which are successfully demodulated after 1 km and 500
We demonstrate monolithically integrated lithium niobate modulators consisting of sub-wavelength waveguides and velocity-matched RF transmission lines.
Astigmatic launchers that would permit a single earth station antenna to communicate with all the satellites along the geo- synchronous arc have been fabricated and measured at a frequency of 100
