This paper describes a T-band (1000 nm–1260 nm) WDM access network based on quantum dot (QD) tunable lasers and QD-SOAs. The 60 THz of T-band bandwidth would be beneficial in WDM systems requiring large number of channels. It would allow large transmission capacity to be achieved using simple transmission format such as intensity modulation. The QD devices described in this paper are the first of its kind that support the 1115 nm–1175 nm wavelength range.

A wavelength-division multiplexing/time-division multiplexing (WDM/TDM) network exploiting the broad wavelength range of T-band (1000–1260 nm) is proposed. The network is based on different wavebands of downlink and uplink channels, with each transmitter consisting of a wavelength tunable laser utilized for more than one user through wavelength tuning. The downlink section of the network also introduces interconnecting optical lines and semiconductor optical amplifiers (SOAs), pairing up each of the downlink wavebands to provide structural redundancy by allowing transmitters to be shared between the paired wavebands through TDM. Quantum dot (QD)-based wavelength tunable lasers and SOAs were fabricated for a preliminary demonstration experiment. Error-free transmission with less than 1 dB of power penalty was obtained for a wavelength range of 24.2 nm (5.6 THz). The QD-SOAs exhibited a decent rise and fall time, as well as extinction ratios throughout the wavelength range, which enable it to be used as path switches.