We present an experimental analysis of a self-tuning colorless ONU transmitter based on amplified self-seeded RSOAs to be exploited in WDM PON fiber networks for fronthaul.
Electrical data transmission at 10-Gb/s through low cost backplanes is a particularly challenging problem.
We report the first experimental demonstration of a silicon optical modulator based on a pipin diode integrated in a 50- μm radius ring resonator.
Operation of a network-embedded colorless self-tuning transmitter for wavelength division multiplexing (WDM) networks is experimentally demonstrated at 10-Gb/s data rate.
10-Gb/s operation of a network-embedded self-tuning transmitter exploiting a high-PDG RSOA in a polarization preserving configuration based on two-Faraday rotators, is demonstrated bridging up to 5
The performance of a semiconductor optical amplifier (SOA) in the deep saturation regime is studied for single-channel return-to-zero- (RZ-) and non-return-to-zero- (NRZ-) differential phase-shift
We discuss options for upgrading coarse wavelength division multiplexed (CWDM) optical access links over standard single- mode fiber (SSMF) by increasing per-channel data rates from 2.5 Gb/s to 10
In this letter, a novel scheme for a wavelength-tunable pulse source (WTPS) is proposed and characterized.
A 5-bit,10-GSample/s flash A/D converter (ADC) is fabricated for 10-Gb/s optical receivers.
We demonstrate mode-multiplexed transmission over a 125km multimode span composed of 10-and15-mode fibers with a core pumped 10-mode receiver amplifier
