High-Tc trilayer tunneling and Josephson junction structures made using atomic layer-by-layer growth

机译：使用原子逐层生长制成的高三层Tc隧道和约瑟夫森结结构

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Abstract: Very precise artificial structuring of high T$-c$/ heterostructures is possible using atomic layer-by-layer molecular beam epitaxy. Cuprates are combined with other oxides, such as titanates, to make atomically precise heterostructures for studying transport and interfacial effects. Titanate slabs as thin as one unit cell thick can be grown without pinholes and provide tunneling barriers for c-axis transport. Single doped unit cells of BSCCO-2212 can also be used as barriers. These give SNS Josephson junctions at temperatures as high as 65 K. Since the crystallographic structure of the barrier is identical to the structure of the 2212 electrode material, it is easily possible to stack more than one junction in close proximity. This results in phase-locked operation of two junctions together.!6

机译：摘要：使用原子逐层分子束外延技术可以对T $ -c $ /高异质结构进行非常精确的人工结构化。铜酸盐与其他氧化物（例如钛酸盐）结合使用，可形成原子精确的异质结构，用于研究传输和界面效应。厚度仅为一个晶胞厚度的钛酸盐板可以生长而没有针孔，并为c轴运输提供隧道屏障。 BSCCO-2212的单掺杂晶胞也可以用作势垒。它们在高达65 K的温度下提供SNS约瑟夫森结。由于势垒的晶体学结构与2212电极材料的结构相同，因此很容易将一个以上的结堆叠在一起。这导致两个结点一起锁相操作！6

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《Superconducting Superlattices and Multilayers》|1994年|p.154-160|共7页
会议地点 Los Angeles CA(US)
作者
J.N. Eckstein; E.H. Ginzton Research Ctr.; Varian Associates Inc.; Palo Alto; CA; USA; Ivan Bozovic; E.H. Ginzton Research Ctr.; Varian Associates Inc.; Palo Alto; CA; USA; Gary F. Virshup; E.H. Ginzton Research Ctr.; Varian Associates Inc.; Palo Alto; CA;
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1. Stacked series arrays of high-Tc trilayer Josephson junctions [J] . Eckstein J.N., Bozovic I., Virshup G.F., IEEE Transactions on Applied Superconductivity . 1995,第2期

机译：高Tc三层约瑟夫逊结的堆叠系列阵列
2. Step-edge and stacked-heterostructure high-Tc Josephson junctions for voltage-standard arrays [J] . Benz S.P., Reintsema C.D., Ono R.H., IEEE Transactions on Applied Superconductivity . 1995,第2期

机译：电压标准阵列的阶跃边缘和堆叠异质结构高Tc Josephson结
3. Toward all-oxide magnetic tunnel junctions: Epitaxial growth of SrRuO _3/CoFe _2O _4/La _(2/3)Sr _(1/3)MnO _3 trilayers [J] . Sánchez A.M., ?k?slompolo L., Qin Q.H., Crystal growth & design . 2012,第2期

机译：向全氧化物磁性隧道结：SrRuO _3 / CoFe _2O _4 / La _（2/3）Sr _（1/3）MnO _3三层的外延生长
4. High-Tc trilayer tunneling and Josephson junction structures made using atomic layer-by-layer growth [C] . J.N. Eckstein, Ivan Bozovic, Gary F. Virshup Conference on superconducting superlattices and multilayers . 1994

机译：高TC三层隧道和Josephson结结构使用原子层逐层生长
5. Josephson Junctions with Tunnel Barriers Grown Via In Situ Atomic Layer Deposition. [D] . Elliot, Alan J. 2014

机译：通过原位原子层沉积生长的隧道势垒的约瑟夫森交界处。
6. Atomic structure and oxygen deficiency of the ultrathin aluminium oxide barrier in Al/AlOx/Al Josephson junctions [O] . Lunjie Zeng, Dung Trung Tran, Cheuk-Wai Tai, -1

机译：Al / AlOx / Al Josephson结中超薄氧化铝阻挡层的原子结构和氧缺乏
7. Trilayer Josephson junctions produced by atomic layer-by-layer FORCE (Flexible Oxide Reaction Controlled Epitaxy). Final report [O] . 1995

机译：由原子层逐层FORCE（柔性氧化物反应控制外延）产生的三层约瑟夫森结。总结报告
8. Trilayer Josephson junctions produced by atomic layer-by-layer FORCE (Flexible Oxide Reaction Controlled Epitaxy). Final report [R] . 1995

机译：由原子层逐层FORCE（柔性氧化物反应控制外延）产生的三层约瑟夫森结。总结报告

High-Tc trilayer tunneling and Josephson junction structures made using atomic layer-by-layer growth

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