We present a theoretical analysis supported by comprehensive numerical
simulations of quasi phase-matched four-wave mixing (FWM) of ultrashort optical
pulses that propagate in weakly width-modulated silicon photonic nanowire
gratings. Our study reveals that, by properly designing the optical waveguide
such that the interacting pulses co-propagate with the same group-velocity, a
conversion efficiency enhancement of more than 15 dB, as compared to a uniform
waveguide, can readily be achieved. We also analyze the dependence of the
conversion efficiency and FWM gain on the pulse width, time delay, walk-off
parameter, and grating modulation depth.Comment: 4 pages, 5 figure
