The surface microstructure modification by N^+ ion implantation into 7050Al alloy and its low cycle fatigue behavior were investigated. Ion implantation method is to physically implant accelerated ions to the surface of a substrate. High dose of nitrogen(5×10^(17)ions/㎠) were implanted into 7050Al alloy using current density of accellerating voltage of 100KeV. The implanted layers were characterized by Electron Probe-Micro Analysis(EPMA), Auger Elecron Spectroscopy(AES), X-Ray Diffraction(XRD), X-Ray Photoelectron Spectroscopy(XPS), and Transmission Electron Microscopy(TEM). The experimental results were compared with computer simulation data. It was shown that AlN was formed to 4500Å deep. The low cycle fatigue life of the N^+ ion modified material was prolonged by about three times the unimplanted one. The improved low cycle fatigue life was attributed to the formation of AIN and the damaged region on the surface by N^+ ion implantation.