Transmission electron microscopy studies of YBCO coated conductors prepared by pulsed-laser deposition and multiple-stage chemical vapor deposition processes

Three types of YBCO films were deposited on metal tapes with biaxially textured CeO2/Gd2Zr2O7 multilayer. One YBCO film 4μm in thickness was formed by pulsed-laser deposition (PLD) on the stationary substrate and another film 3μm in thickness by PLD using a reel-to-reel substrate tape transferring s...

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Published inPhysica. C, Superconductivity Vol. 426-431; pp. 1033 - 1042
Main Authors Kato, Takeharu, Sasaki, Hirokazu, Iwai, Hiroyuki, Ibi, Akira, Kashima, Naoji, Niwa, Toshiharu, Muroga, Takemi, Miyata, Seiki, Watanabe, Tomonori, Iijima, Yasuhiro, Kakimoto, Kazuomi, Sutoh, Yasunori, Yamada, Yutaka, Nagaya, Shigeo, Saitoh, Takashi, Izumi, Teruo, Sasaki, Yukichi, Hirayama, Tsukasa, Shiohara, Yuh, Ikuhara, Yuichi
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.10.2005
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Summary:Three types of YBCO films were deposited on metal tapes with biaxially textured CeO2/Gd2Zr2O7 multilayer. One YBCO film 4μm in thickness was formed by pulsed-laser deposition (PLD) on the stationary substrate and another film 3μm in thickness by PLD using a reel-to-reel substrate tape transferring system. Ic values of the films were 173A and 293A, respectively A further film 1μm in thickness was fabricated by multiple-stage chemical vapor deposition (MSCVD). The Ic value of the MSCVD-YBCO film was 100A. The microstructures of these YBCO films were characterized using transmission electron microscopy (TEM). In the PLD-YBCO films, the films less than 1μm thick were predominantly composed of c-axis oriented grains which were considered to grow spirally, however, irregular instances of a-axis oriented grains were also found. The a-axis oriented grains size increased with increasing thickness of the YBCO films. In the 4μm-thick PLD-YBCO film with an Ic value of 173A, a-axis oriented grains were considered to nucleate on the CeO2. We found many Y2O3 and cupper oxides at the boundaries between a- and c-axes oriented grains and the orientation relationships between YBCO and Y2O3 were determined to be as follows: (001)YBCO//(001)Y2O3 and (100)YBCO//(110)Y2O3. We also found many gaps and pores between YBCO grains. Nucleation of a-axis oriented grains was completely suppressed on the CeO2 in the 3μm-thick PLD-YBCO film with an Ic value of 293A. In the MSCVD-YBCO film, the YBCO film mostly consisted of c-axis oriented grains, however a-axis oriented grains and polycrystal also formed in the film. As the MSCVD-YBCO film became thicker, the a-axis oriented grains grew large, as same as in the PLD-YBCO films. The growth rate of a-axis oriented grain along the substrate normal was much higher than that of c-axis oriented grains in comparison to the difference in the growth rate between a- and c-axes oriented grains in the PLD-YBCO. In these specimens, the grain growth of the a-axis oriented grains was considered to be one of the most significant causes of degradation of Jc values in the YBCO films.
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content type line 23
ISSN:0921-4534
1873-2143
DOI:10.1016/j.physc.2005.01.058