We report new measurements on subgap energy structures originating from multiple Andreev reflections in mesoscopic SNS junctions. The junctions were fabricated in a planar geometry with high-transparency superconducting contacts of Al deposited on highly diffusive and surface δ -dopedn++ -GaAs. For samples with a normal GaAs region of active length 0.3μ m, the Josephson effect with a maximal supercurrent Ic= 3μ A at T= 237 mK was observed. The subgap structure was observed as a series of local minima in the differential resistance at dc bias voltages V=±2Δ/(ne) with n= 1, 2, 4, i.e. only the even subgap positions. While at V=±2Δ/e(n= 1) only one dip is observed, then= 2 and the n= 4 subgap structures each consists of two separate dips in the differential resistance. The mutual spacing of these two dips is independent of temperature, and the mutual spacing of the n= 4 dips is half the spacing of the n= 2 dips. The voltage bias positions of the subgap differential resistance minima coincide with the maxima in the oscillation amplitude when a magnetic field is applied in an interferometer configuration, where one of the superconducting electrodes has been replaced by a flux-sensitive open loop.