Based on current laboratory laser parameters and the low density target that is induced by the inevitable prepulse, we propose what we believe to be a new scheme to enhance the proton energy by employing a laser pulse with two different peak intensities. Initially, the lower-intensity peak of the laser pulse P, irradiates the low-density plasma target induced by the prepulse to form a significantly denser plasma target. Such a compressed high-density target is critical for supporting the subsequent main pulse P with higher peak intensity to drive proton acceleration. As an example, particle-in-cell (PIC) simulations reveal that when using a circularly polarized (CP) flat-top P with a peak intensity of approximately 1.71 × 10 W/cm, full-width at half-maximum(FWHM) duration of 325 fs and a CP P with a peak intensity of 1.54 × 10 W/cm, FWHM duration of 26.5 fs, and focal spot radius of 4 µm successively acting on a target with an initial density of 8nc, protons with cut-off energy of 940 MeV can be obtained from the cascaded acceleration scheme. Compared with the case without P, the cutoff energy increased by 340 MeV. Owing to the intervention of P, this scheme overcomes the limitation of laser contrast and is more feasible to be implemented experimentally.
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