Fiber-grating add–drop reconfigurable multiplexer with multichannel using in bi-directional optical network

“…Eq. (1) shows that dispersion angle is resulting from a phase difference between adjacent waveguides .…”

“…As an important device for optical ring networks, the reconfigurable optical modules that applies the add-drop function reuses the wavelengths to enhance the network when the network is troubled. Often, the module helps the network administrators configure the wavelength channels to manage the quality of service for a dynamic network [1][2].…”

Monolithic reconfigurable multi-functional waveguide modules for integrated optical network based on polymer photonic lightwave circuits

“…Eq. (1) shows that dispersion angle is resulting from a phase difference between adjacent waveguides .…”

“…As an important device for optical ring networks, the reconfigurable optical modules that applies the add-drop function reuses the wavelengths to enhance the network when the network is troubled. Often, the module helps the network administrators configure the wavelength channels to manage the quality of service for a dynamic network [1][2].…”

Monolithic reconfigurable multi-functional waveguide modules for integrated optical network based on polymer photonic lightwave circuits

A wavelength routing device by using cyclic AWGs and tunable FBGs

Configuration of more than N DWDM channels with only one N×N cyclic-AWG-based wavelength routing device