We demonstrate the longest WDM transmission at 200Gb/s using single-carrier PDMQPSK modulation format.
Signal transmission with capacity of 41.6 Tbit/s (net data rate 16.8 Tbit/s) over 12 spatial and polarization modes is demonstrated.
High capacity optical transmission systems with optimized spectral efficiency are presently intensively investigated [1].
By enhancing excitonic absorption in a new design of a polarization independent EA modulator, a 50 nm flat absorption spectrum, 42 GHz bandwidth devices together with 14-30 dB/V modulation sensitiv
The transmission of 42 RZ-DPSK channels at 42.7 Gb/s is demonstrated over 4820 km of NZDSF deployed line with more than 3 dB margin.
Optical duobinary transmission at 42.7 Gb/s is demonstrated using a commercially available 10-Gb/s LiNbO3 modulator.
We demonstrate 42.7-Gb/s operation of a compact InP Mach-Zehnder transmitter designed for 10.7 Gb/s.
Demonstrated is a record serial transmission rate of 42.8 Gbit/s by sending four-level pulse amplitude modulated (PAM-4) data over a low-loss Megtron 6 electrical backplane.
42 x 10 Gbit/s wavelength division multiplexed transmission of 4000 km of UltraWave fiber with 100 km dispersion-managed spans and 50 GHz channel spacing is demonstrated.
42 x 10 Gbit/s wavelength division multiplexed transmission over 4000 km of UltraWave fiber with 100 km dispersion-managed spans and 50 GHz channel spacing is demonstrated.
