Molecular beam epitaxy growth of a layered cuprate having a multiple fluorite-type block for use in trilayer junctions

(Pb2Cu)Sr2(Eu,Ce)nCu2Oy: n=3–8 (Pb-32n2 phase) has been synthesized by sequential deposition using the molecular beam epitaxy technique. This layered cuprate having a multiple-stacked fluorite-type block is thought to be suitable for use in trilayer Josephson junctions, from the viewpoints of atomic...

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Veröffentlicht in:	Applied physics letters 1996-04, Vol.68 (17), p.2430-2432
Hauptverfasser:	Ikegawa, Sumio, Motoi, Yuichi
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Sprache:	eng
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container_title	Applied physics letters
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creator	Ikegawa, Sumio Motoi, Yuichi
description	(Pb2Cu)Sr2(Eu,Ce)nCu2Oy: n=3–8 (Pb-32n2 phase) has been synthesized by sequential deposition using the molecular beam epitaxy technique. This layered cuprate having a multiple-stacked fluorite-type block is thought to be suitable for use in trilayer Josephson junctions, from the viewpoints of atomic arrangement at the superconductor-insulator interface and the need for an atomically flat thin insulator. The thickness of the fluorite block, which will act as an intra-cell barrier, has been controlled up to 2.2 nm (n=8). Pb-3272/Pb-3212 epitaxial superlattices have also been prepared. The two-dimensional growth with the growth unit of a unit cell is observed by in situ reflection high-energy electron diffraction.
doi_str_mv	10.1063/1.116157
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This layered cuprate having a multiple-stacked fluorite-type block is thought to be suitable for use in trilayer Josephson junctions, from the viewpoints of atomic arrangement at the superconductor-insulator interface and the need for an atomically flat thin insulator. The thickness of the fluorite block, which will act as an intra-cell barrier, has been controlled up to 2.2 nm (n=8). Pb-3272/Pb-3212 epitaxial superlattices have also been prepared. 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This layered cuprate having a multiple-stacked fluorite-type block is thought to be suitable for use in trilayer Josephson junctions, from the viewpoints of atomic arrangement at the superconductor-insulator interface and the need for an atomically flat thin insulator. The thickness of the fluorite block, which will act as an intra-cell barrier, has been controlled up to 2.2 nm (n=8). Pb-3272/Pb-3212 epitaxial superlattices have also been prepared. The two-dimensional growth with the growth unit of a unit cell is observed by in situ reflection high-energy electron diffraction.</abstract><doi>10.1063/1.116157</doi><tpages>3</tpages><oa>free_for_read</oa></addata></record>
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title	Molecular beam epitaxy growth of a layered cuprate having a multiple fluorite-type block for use in trilayer junctions
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