YBa_2Cu_3O_<7-z>/Pr_<0.5>Ca_<0.5>MnO_<3-y>/YBa_2Cu_3O_<7-z> Sandwich Type Josephson Junctions
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概要
- 論文の詳細を見る
- Publication Office, Japanese Journal of Applied Physics, Faculty of Science, University of Tokyoの論文
- 1998-06-01
著者
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Ohnishi Takaaki
School Of Materials Science Japan Advanced Institute Of Science And Technology Hokuriku (jaist)
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SAKAI Joe
School of Materials Science, Japan Advanced Institute of Science and Technology, Hokuriku (JAIST)
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HIOKI Jun-ichi
School of Materials Science, Japan Advanced Institute of Science and Technology, Hokuriku (JAIST)
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YAMAGUCHI Toru
School of Materials Science, Japan Advanced Institute of Science and Technology, Hokuriku (JAIST)
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IMAI Syozo
School of Materials Science, Japan Advanced Institute of Science and Technology, Hokuriku (JAIST)
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Sakai Joe
School Of Materials Science Japan Advanced Institute Of Science And Technology (jaist)
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Hioki Jun-ichi
School Of Materials Science Japan Advanced Institute Of Science And Technology Hokuriku (jaist)
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Imai Syozo
School Of Materials Science Japan Advanced Institute Of Science And Technology Hokuriku (jaist)
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Sakai Joe
School Of Materials Science Japan Advanced Institute Of Science And Technology Hokuriku (jaist)
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Yamaguchi Toru
School Of Materials Science Japan Advanced Institute Of Science And Technology Hokuriku (jaist)
関連論文
- YBa_2Cu_3O_/Pr_Ca_MnO_/YBa_2Cu_3O_ Sandwich Type Josephson Junctions
- Correlation between O/Er Content Ratio and Photoluminescence Intensity of (Er, O)-Doped Hydrogenated Amorphous Si Thin Films Prepared by a Catalytic Chemical Vapor Deposition/Laser Ablation Hybrid Process
- Fabrication of Magnetic Barrier NbN Tunnel Junctions with the Gap Voltage over 5 mV
- Time-dependent Characteristics of Electric Field-induced Metal–Insulator Transition of Planer VO2/c-Al2O3 Structure
- RF Magnetron Sputtering Growth of Epitaxial SrRuO3 Films with High Conductivity
- Correlation between O/Er Content Ratio and Photoluminescence Intensity of (Er, O)-Doped Hydrogenated Amorphous Si Thin Films Prepared by a Catalytic Chemical Vapor Deposition/Laser Ablation Hybrid Process