In this thesis, we demonstrated a novel near-ballistic uni-traveling-carrier photodiode (NBUTC-PD) based broadband photonic transmitter, which consist of a slot-line NBUTC-PD and a novel Quasi-Yagi radiator. Compared to our previously demonstrated device, in this study, we use a slot-line transmitter and photodiode instead of a fan-shape transition. Our newly photonic transmitter can achieve a much wider optical-to-electrical (O-E) bandwidth ,even covering full W-band(75-110GHz) . Furthermore, by inserting an additional band-pass filter in our novel radiator, we can optimize its O-E response and modulation response independently. The modulation bandwidth can thus be greatly improved to ~15GHz without sacrificing its O-E bandwidth, which is more than 3 times wider than our previous design. As compared to reported W-band photonic transmitter-mixer, the demonstrated device exhibits extremely high modulation speed.