Optical carrier shocking and the effect of dispersion P. Kinsler, S.B.P. Radnor, J.C.A. Tyrrell, G.H.C. New Blackett Laboratory, Imperial College London, Prince Consort Road, London SW7 2BW, United Kingdom. Phys. Rev. E 75, 066603 (2007). arXiv:0704.1212 Carrier wave shocking is studied using the Pseudo-Spectral Spatial Domain (PSSD) technique. We describe the shock detection diagnostics necessary for this numerical study, and verify them against theoretical shocking predictions for the dispersionless case. These predictions show Carrier Envelope Phase (CEP) and pulse bandwidth sensitivity in the single-cycle regime. The flexible dispersion management offered by PSSD enables us to independently control the linear and nonlinear dispersion. Customized dispersion profiles allow us to analyze the development of both carrier self-steepening and shocks. The results exhibit a marked asymmetry between normal and anomalous dispersion, both in the limits of the shocking regime and in the (near) shocked pulse waveforms. Combining these insights, we offer some suggestions on how carrier shocking (or at least extreme self-steepening) might be realised experimentally.