Phase of Kerr-based few-cycle parametric amplification

Kerr instability amplification can amplify over an octave of spectrum, a broad bandwdith supporting few-cycle pulses. However, dispersion management in this regime is crucial to maintain the ultrashort pulse duration. In our simulations, we find that the dispersion of Kerr instability amplification is near zero at the pump wavelength, and can be compensated pre-amplification to generate near-transform-limited amplified few-cycle pulses. We also find the phase of the amplified pulse depends on the seed phase and is independent of the pump, and does not significantly depend on the pump intensity. We discuss chirping the seed pulse to avoid saturation, a route for generating sub-mJ few-cycle pulses from the Kerr nonlinearity