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레이저 간섭 석판술로 전처리된 AAO을 이용한 Fe 나노점 제작
강진혁,황현미,이성구,이재용,Hwang, H.M.,Kang, J.H.,Lee, S.G.,Lee, J. 한국자기학회 2007 韓國磁氣學會誌 Vol.17 No.3
The ordering of nanopores in AAO has been improved by using laser interference lithography. After growing Fe and Cu on this substrate in vacuum and removing AAO, Fe nanodots are fabricated. The nanopores in AAO and nanodots are ordered in one dimension following the prepatterning. It has been confirmed from the magnetic hysteresis loop that the Fe nanodots have vortex structure and the dipolar interaction is dominant among them. 레이저 간섭 석판 장비(Laser Interference Lithography; LIL)를 이용하여, Anodic Aluminum Oxide(AAO) 나노기공의 배열을 향상 시켰다. 이후 진공에서 Fe와 Cu를 AAO/Si에 성장하고, AAO를 제거하여 Cu/Fe(20 nm) 나노구조를 제작하였다. AAO의 나노기공과 나노구조는 전처리 과정에서 제작된 PR(photoresist) 나노선을 따라 1차원으로 배열되었다. 자성 나노구조의 자기이력곡선으로부터 이들이 vortex 구조를 가지며, 쌍극자 상호작용이 지배적임을 확인하였다.
이온 조사된 Cu / Ni / Cu(001) / Si 자성박막에 있어서 X-ray reflectivity를 이용한 계면 연구
김태곤(T. G. Kim),송종한(J. H. Song),이택휘(T. H. Lee),채근화(K. H. Chae),황현미(H. M. Hwang),전기영(G. Y. Jeon),이재용(J. Lee),정광호(K. Jeong),황정남(C. N. Whang),이준식(J. S. Lee),이기봉(K. B. Lee) 한국자기학회 2002 韓國磁氣學會誌 Vol.12 No.5
The Cu/Ni/Cu(002)/Si(100) films which have perpendicular magnetic anisotropy were deposited by e-beam evaporation methods. From the reflection high energy electron diffraction pattern, the films were confirmed to be grown epitaxially on silicon. After 2×10^(16) ions/㎠ C+ irradiation, magnetic easy-axis was changed from surface normal to in-plane as shown in the hysteresis loop of magneto-optical Kerr effects. It became manifest from analysis of X-ray reflectivity and grazing incident X-ray diffraction that even though interface between top Cu layer and Ni layer became rougher, the contrast of Cu and Ni's electron density became manifest after ion irradiation. In addition, the strain after deposition of the films was relaxed after ion irradiation. Strain relaxation related with change of magnetic properties and mechanism of intermixed layer's formation was explained by thermo-chemical driving force due to elastic and inelastic collision of ions.