Fast wavelength stabilization of tunable laser after starting laser oscillation

“…36) Focusing on the wavelength immediately after laser activation, we investigated high-speed wavelength stabilization by using feedforward control. The target wavelength stabilization time is 100 ns, which corresponds to 10% of the maximum packet length (1 µs) at 10 Gbit=s in the Ethernet system.…”

“…In our preliminary experiment, we activated the TDA-DFB laser with a feedback control at the tuning layer and realized wavelength stabilization within 1.7 µs. 36) Focusing on the wavelength immediately after laser activation, we investigated high-speed wavelength stabilization by using feedforward control. The target wavelength stabilization time is 100 ns, which corresponds to 10% of the maximum packet length (1 µs) at 10 Gbit=s in the Ethernet system.…”

High-speed and long-term wavelength stabilization of tunable distributed amplification distributed feedback laser after laser activation with feedforward and feedback control

“…36) Focusing on the wavelength immediately after laser activation, we investigated high-speed wavelength stabilization by using feedforward control. The target wavelength stabilization time is 100 ns, which corresponds to 10% of the maximum packet length (1 µs) at 10 Gbit=s in the Ethernet system.…”

“…In our preliminary experiment, we activated the TDA-DFB laser with a feedback control at the tuning layer and realized wavelength stabilization within 1.7 µs. 36) Focusing on the wavelength immediately after laser activation, we investigated high-speed wavelength stabilization by using feedforward control. The target wavelength stabilization time is 100 ns, which corresponds to 10% of the maximum packet length (1 µs) at 10 Gbit=s in the Ethernet system.…”

High-speed and long-term wavelength stabilization of tunable distributed amplification distributed feedback laser after laser activation with feedforward and feedback control