Radio frequency passband signal generation using photonics

What is claimed is: 1. A voltage tunable optical filter for use in a passband signal generator, comprising: a first input configured to receive a broadband optical pulse train; a second input configured to receive a first control voltage representative of an amplitude signal; an electrooptic modulator coupled to the first input and to the second input to receive the broadband optical pulse train and the first control voltage, and to modulate the broadband optical pulse train in accordance with the amplitude signal, the electrooptic modulator configured to produce two complementary optical outputs that form two arms of an interferometer; an optical delay component coupled to the electrooptic modulator to impart an optical path difference into one of the complementary outputs of the electrooptic modulator; and a combiner to receive two complementary optical outputs of the electrooptic modulator after impartation of the optical path difference and to produce an output interference pattern of fringes, wherein an extinction ratio of the interference fringes is dependent on a value of the first control voltage. 2. The voltage tunable optical filter of claim 1 , wherein the voltage tunable optical filter is implemented as part of an arbitrary radio frequency (RF) passband signal generator, the arbitrary RF passband signal generator, further comprising: a dispersive element, coupled to an output of the voltage tunable optical filter, to map a broadband optical output of the voltage tunable optical filter to a time-broadened optical signal. 3. The voltage tunable optical filter of claim 2 , further comprising: an optical-to-electrical converter, coupled to the dispersive element, to convert the time-broadened optical signal to an analog electrical signal; and a bandpass filter, coupled to the optical-to-electrical converter, to receive and interpolate the analog electrical signal. 4. The voltage tunable optical filter of claim 3 , wherein the optical-to-electrical converter comprises a balanced photodetector. 5. The voltage tunable optical filter of claim 3 , wherein the voltage tunable optical filter (VTOF) is implemented as part of an arbitrary radio frequency (RF) passband signal generator, the arbitrary RF passband signal generator, comprising: an optical filter comprising an optical modulator and a static optical spectral shaping filter, wherein a filtering operation of the optical filter compensates for inter-symbol interference due to at least one component of the optical-to-electrical converter and/or the bandpass filter, and wherein the static optical spectral shaping filter is based on one or more transfer functions of the at least one component of the optical-to-electrical converter and/or the bandpass filter. 6. The system of claim 5 , wherein the optical filter is coupled to the broadband pulse train to perform a filtering operation on the broadband optical pulse train. 7. The system of claim 5 , wherein the optical filter is coupled to an output of the voltage tunable optical filter or an output of the dispersive element, and configured to perform a filtering operation on an output thereof. 8. The voltage tunable optical filter of claim 2 , wherein the dispersive element comprises one or more dispersion compensation fibers. 9. The voltage tunable optical filter of claim 1 , wherein the electrooptic modulator is an electrooptic amplitude modulator, and the voltage tunable optical filter further comprises: a third input configured to receive a second control voltage; and an electrooptic phase modulator coupled to the electrooptic amplitude modulator to vary a phase of the broadband optical pulse train based on the second control voltage, wherein a shift of the interference fringes is dependent on a value of the second control voltage. 10. The voltage tunable optical filter of claim 1 , wherein the voltage tunable optical filter includes an unbalanced Mach-Zehnder interferometer. 11. The voltage tunable optical filter of claim 1 , wherein the electrooptic modulator is a first electrooptic phase modulator, and the voltage tunable optical filter comprises: a third input configured to receive a second control voltage; a first polarization rotator coupled between the first input and the first electrooptic phase modulator; a second polarization rotator positioned to rotate a polarization of the output optical signal from the first electrooptic phase modulator; a second electrooptic phase modulator coupled to the output of the second polarization rotator and to the second control voltage to vary a phase of the broadband optical pulse train based on the second control voltage, wherein a shift of the interference fringes is dependent on a value of the second control voltage; and wherein the combiner includes: a third polarization rotator; and a polarization beam splitter, and wherein the optical delay component is coupled to the output of the second electrooptic phase modulator, the third polarization rotator is coupled to the output of the optical delay component, and the polarization beam splitter is coupled to the output of the third polarization rotator. 12. The voltage tunable optical filter of claim 1 , wherein the voltage tunable optical filter includes a single fiber or waveguide that is used for implementation of the both arms of the interferometer on the single fiber or waveguide. 13. The voltage tunable optical filter of claim 1 , wherein the voltage tunable optical filter comprises another input configured to receive a third control voltage to control a delay of the optical delay component. 14. The voltage tunable optical filter of claim 1 , further comprising: an optical source, coupled to the voltage tunable optical filter, to generate the broadband optical pulse train characterized by at least a pulse rate. 15. The voltage tunable optical filter of claim 1 , wherein the voltage tunable optical filter (VTOF) is implemented as a first VTOF of an arbitrary radio frequency (RF) passband signal generator, the arbitrary RF passband signal generator comprising: an input optical splitter positioned to receive input laser pulses at a first repetition rate and to produce a plurality secondary laser pulses that are different in one or both of a power or a spectral content compared to the input laser pulses; one or more additional voltage tunable optical filters (VTOFs), each of the one or more additional VTOFs being substantially similar to the first VTOF, each VTOF configured to receive one of the secondary laser pulses, and each VTOF further configured to receive one or more control voltages to effect modulation of a corresponding secondary laser pulse; a plurality of optical delay elements, each coupled to an output of a corresponding VTOF; an optical coupler configured to receive optical signals from each of the optical delay elements and to combine the received optical signals into a time-multiplexed series of modulated secondary laser pulses; and a dispersion element coupled to the output of the optical coupler to broaden spectral contents of the time-multiplexed series of modulated secondary laser pulses in time. 16. The voltage tunable optical filter of claim 1 , wherein the voltage tunable optical filter (VTOF) is implemented as a first VTOF of an arbitrary radio frequency (RF) passband signal generator, the arbitrary RF passband signal generator comprising: an input optical splitter to receive a first series input laser pulses and to produce a plurality secondary laser pulses that are different in one or both of a power or a spectral content compared to the firs