We studied the correlation between surface morphology and magnetic behavior of magnetic thin films.The experiment was divided into three parts. (1) HOPG system. (2) Al2O3(0001) system,and (3) Si(111) system. 　　In HOPG system, we used Ar+ sputtering to create surface defects. Co atom nucleation size in planar-HOPG was larger than in sputtered-HOPG. In planar-HOPG, Co films prefer a magnetizeation direction. In the surface plane, In Co/sputteredp-HOPG, we measured Kerr hysteresis loops in both the polar and longitudinal directions. The easy axis is confirmed in an oblique direction, even at the Co thickness of 60 ML. 　　In Al2O3(0001) system, we used oblique deposition to induce an uniaxial MAE in Fe films. For 0°-Fe/Al2O3(0001), the Pd capping layer can still preserve the 3-fold symmetry. However, in Pd/45°-Fe/Al2O3(0001) and Pd/65°-Fe/Al2O3(0001), the Pd capping layers were composed of nanoclusters. For Pd/0°-Fe/Al2O3(0001), the hystersis loops were always of a square shape, which is invariant with the azimuthal measurement angle ∅.For Pd/45°-Fe/Al2O3(0001) and Pd/65°-Fe/Al2O3(0001), an uniaxial anisotropic magnetic behavior was observed. The easy axis is along the ∅=0 deg and The hard axis is along the ∅=90 deg. 　　In Si(111) system, we masured obliquely depositied films again.The results are consistant with the Al2O3(0001) system. By choosing different alloy interface materials(Fe、Pd、Ni), we can see different magnetic behavior. The coercivity field(Hc) of Fe/Fe-silicide/Si(111)(Hc=130 Oe) was much larger than Fe/Pd-silicide/Si(111)(Hc=50 Oe) and Fe/Si(111)(Hc=50 Oe).