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Author Ivanov, Z. ♦ Brorsson, G.
Source United States Department of Energy Office of Scientific and Technical Information
Content type Text
Language English
Subject Keyword MATERIALS SCIENCE ♦ CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY ♦ BISMUTH OXIDES ♦ SUPERCONDUCTIVITY ♦ CALCIUM OXIDES ♦ COPPER OXIDES ♦ LEAD OXIDES ♦ STRONTIUM OXIDES ♦ SUPERCONDUCTING FILMS ♦ FABRICATION ♦ ABLATION ♦ EXPERIMENTAL DATA ♦ LASER RADIATION ♦ LOW TEMPERATURE ♦ TRANSITION TEMPERATURE ♦ VERY LOW TEMPERATURE ♦ ALKALINE EARTH METAL COMPOUNDS ♦ BISMUTH COMPOUNDS ♦ CALCIUM COMPOUNDS ♦ CHALCOGENIDES ♦ COPPER COMPOUNDS ♦ DATA ♦ ELECTRIC CONDUCTIVITY ♦ ELECTRICAL PROPERTIES ♦ ELECTROMAGNETIC RADIATION ♦ FILMS ♦ INFORMATION ♦ LEAD COMPOUNDS ♦ NUMERICAL DATA ♦ OXIDES ♦ OXYGEN COMPOUNDS ♦ PHYSICAL PROPERTIES ♦ RADIATIONS ♦ STRONTIUM COMPOUNDS ♦ THERMODYNAMIC PROPERTIES ♦ TRANSITION ELEMENT COMPOUNDS ♦ Ceramics, Cermets, & Refractories- Preparation & Fabrication ♦ Ceramics, Cermets, & Refractories- Physical Properties ♦ Condensed Matter Physics- Superconductivity
Abstract Superconducting Bi-Ca-Sr-Cu-O and Bi-Pb-Ca-Sr-Cu-O films were grown {ital in situ} by excimer laser ablation from pressed powder and sintered superconducting targets, respectively. The substrate temperature during deposition was found to be important to obtain a maximum transition temperature. Both 110 and 80 K superconducting phases were obtained in films with a zero resistance at 74 K.
ISSN 00036951
Educational Use Research
Learning Resource Type Article
Publisher Date 1989-11-13
Publisher Place United States
Journal Applied Physics Letters
Volume Number 55
Issue Number 20


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