Co-llat% W films with different thicknesses (9--80 nm) were deposited on MgO (220) single crystal substrate with Cr underlayer (100 nm) by magnetron sputtering. The epitaxial growth relationship between Cr and Co-W layer is Cr(112)[117]//Co-W(1010) [ 12101 and Cr(112) [ 110 J//Co-W (1010) [ 00011. With the increasing of Co-W film thickness, the in- plane strain of Co-W layer decreases from - 0. 388 4 % to 0.271 1%, while the out-of-plane strain decreases from 0. 781 3 % to 0. 544 5 %, and the first order effective magnetic anisotropy constant K~ff decreases from 3.82 ~ 106 erg/cc to 2.58 ~ 106 erg/cc correspondingly. The results showed that the effective magnetic animtropy energy of magnetic layer can be tuned by adjusting the strain between underlayer and magnetic layer.%利用磁控溅射在250℃的MgO(220)单晶基片上先后沉积Cr(100 nm)下底层和不同厚度(9~80 nm)的Co-11%W(原子分数)磁性层,二者取向附生生长关系为Cr(112)[111]∥Co-W(1010)[1210]和Cr(112)[110]∥Co-W(1010)[0001].随着膜厚的增加,Co-W在薄膜面内的压应变(ε〈0)由-0.388 4%减小到-0.271 1%,Co-W在薄膜法线方向拉应变(ε〉0)从0.781 3%减小到0.544 5%,相应地其有效磁晶各向异性能一级常数Ke1ff由3.82×106减小到2.58×106erg/cc.该结果表明通过设计磁性层和下底层之间的应变状态,可以达到调节磁记录介质有效磁晶各向异性能的作用.
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