Tunable rf filter device using optical waveguide paths with splitter and combiner pairs and related methods

1 - 18 . (canceled) 19 . A method of Radio Frequency (RF) filtering comprising: generating an optical carrier signal using a tunable optical source; modulating the optical carrier signal with an RF input signal using a modulator coupled to the tunable optical source and first and second optical waveguide paths coupled to the modulator and having first and second dispersion slopes of opposite sign from each other, at least one of the first and second optical waveguide paths comprising at least one optical splitter and combiner pair therein; and generating an RF output signal with at least one frequency notch therein based upon the tunable optical source using an optical-to-electrical converter coupled to the first and second optical waveguide paths and based upon the first and second dispersion slopes being of opposite sign from each other. 20 . The method of claim 19 further comprising using the first optical waveguide path comprising a first optical waveguide coupled to the modulator and having the first dispersion slope, and the second optical waveguide path comprising a second optical waveguide coupled to the modulator and having the second dispersion slope having the opposite sign of the first dispersion slope. 21 . The method of claim 19 further comprising using the first optical waveguide path comprising at least one pair of optical waveguides coupled between the optical splitter and the optical combiner of the at least one optical splitter and combiner pair, the at least one pair of optical waveguides having dispersion slopes of opposite sign. 22 . The method of claim 19 further comprising tuning a frequency of the optical carrier signal over a desired frequency range. 23 . The method of claim 22 further comprising tuning the frequency of the optical carrier signal to generate the RF output signal with the at least one frequency notch therein by causing interference between outputs of the first and second optical waveguide paths. 24 . The method of claim 19 further comprising using an antenna coupled to the modulator to provide the RF input signal. 25 . A method of Radio Frequency (RF) processing comprising: generating an optical carrier signal; modulating the optical carrier signal with an RF input signal using a modulator and first and second optical waveguide paths coupled thereto, the first and second optical waveguide paths having first and second dispersion slopes of opposite sign from each other; and generating an RF output signal with at least one frequency notch therein from the modulated optical carrier signal and based upon the first and second dispersion slopes being of opposite sign from each other. 26 . The method of claim 25 further comprising using the first optical waveguide path comprising a first optical waveguide coupled to the modulator and having the first dispersion slope, and the second optical waveguide path comprising a second optical waveguide coupled to the modulator and having the second dispersion slope having the opposite sign of the first dispersion slope. 27 . The method of claim 25 further comprising using the first optical waveguide path comprising at least one pair of optical waveguides coupled between an optical splitter and an optical combiner, the at least one pair of optical waveguides having dispersion slopes of opposite sign. 28 . The method of claim 25 further comprising tuning a frequency of the optical carrier signal over a desired frequency range. 29 . The method of claim 28 further comprising tuning the frequency of the optical carrier signal to generate the RF output signal with the at least one frequency notch therein by causing interference between outputs of the first and second optical waveguide paths. 30 . The method of claim 25 further comprising using an antenna coupled to the modulator to provide the RF input signal. 31 . A method of Radio Frequency (RF) processing comprising: receiving an RF input signal from an antenna; modulating an optical carrier signal with the RF input signal using a modulator and first and second optical waveguide paths coupled thereto, the first and second optical waveguide paths having first and second dispersion slopes of opposite sign from each other; and generating an RF output signal with at least one frequency notch therein from the modulated optical carrier signal and based upon the first and second dispersion slopes being of opposite sign from each other. 32 . The method of claim 31 further comprising using the first optical waveguide path comprising a first optical waveguide coupled to the modulator and having the first dispersion slope, and the second optical waveguide path comprising a second optical waveguide coupled to the modulator and having the second dispersion slope having the opposite sign of the first dispersion slope. 33 . The method of claim 31 further comprising using the first optical waveguide path comprising at least one pair of optical waveguides coupled between an optical splitter and an optical combiner, the at least one pair of optical waveguides having dispersion slopes of opposite sign. 34 . The method of claim 31 further comprising tuning a frequency of the optical carrier signal over a desired frequency range. 35 . The method of claim 34 further comprising tuning the frequency of the optical carrier signal to generate the RF output signal with the at least one frequency notch therein by causing interference between outputs of the first and second optical waveguide paths.