A tunable and reconfigurable microwave photonic filter based on a Raman fiber laser

An integrated photonic microwave reconfigurable filter was proposed and realized incorporating a tunable polymeric ring resonator. Its passband could be shaped electrically by shifting the resonant peaks of the resonator via the thermo-optic effect. As for the achieved performance, the center freque

A novel tunable and reconfigurable microwave photonic filter based on two cascaded modulators and a dispersive medium is proposed, theoretically discussed and experimentally demonstrated. A singlewavelength LD and a modulator (either a Mach-Zehnder modulator or a phase modulator which can avoid the

A microwave photonic filter based on a structure of an actively mode-locked fiber laser is proposed. The mechanism and relation between the actively mode-locked fiber laser and the proposed microwave photonic filter are theoretically investigated and experimentally demonstrated. A microwave photonic

An optical microwave filter architecture which can be continuously tuned is proposed and demonstrated. The architecture is based on a nematic liquid crystal spatial light modulator in parallel configuration and has the potential to control a large number of taps. Proof-of concept experimental result

surface is smaller than that of the flat surface. That is because the Brewster angle between ground and snow is 50°. The 50°angle in snow corresponds to 35°in air by Snell's law. However, at the higher frequency of 36.5 GHz in Figure 4, volume scattering becomes important and obscures the Brewster-a