We propose to use ultra-high intensity laser pulses with wavefront rotation (WFR) to produce short, ultra-intense surface plasma waves (SPW) on grating targets for electron acceleration. Combining a smart grating design with optimal WFR conditions identified through simple analytical modeling and particle-in-cell simulation allows to decrease the SPW duration (down to few optical cycles) and increase its peak amplitude. In the relativistic regime, for $Ilambda_0^2=3.4 times 10^{19}{rm W/cm^2mu m^2}$, such SPW are found to accelerate high-charge (few 10s of pC), high-energy (up to 70 MeV) and ultra-short (few fs) electron bunches.
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