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The surface condition of substrate tape is an important factor to obtain epitaxial buffer layer on biaxially textured Ni tape for YBa2Cu3O7-x coated conductors. We prepare ceria films on Ni single crystal, biaxially textured Ni tape and sulfured Ni substrates by direct current magnetron sputtering. The results show that the ceria films prepared on Ni single crystal and sulfured Ni substrates each have a poor-textured grain structure. However, the ceria film fabricated on rolling assisted biaxially textured substrate (RABiTS) exhibits a good c-axis texture and desirable surface morphology. Reflection high-energy electron diffraction analysis indicates that the c(22) superstructure on the RABiTS Ni surface has a dramatic effect on the heteroepitaxial growth of oxide buffer layer.
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Keywords:
- coated conductors /
- metal tape /
- superstructure /
- buffer layer
[1] Fleshler S, Buczek D, Carter B, Cedrone P, DeMoranville K, Gannon J, Inch J, Li X, Lynch J, Otto A, Podtburg E, Roy D, Rupich M, Sathyamurthy S, Schreiber J, Thieme C, Thompson E, Tucker D, Nagashima K, Ogata M 2009 Physica C 469 1316
[2] [3] Shi D Q, Ma P, Ko R K, Kim H S, Chung J K, Song K J, Park C 2007 Chin. Phys. B 16 2142
[4] [5] Ding F Z, Gu H W, Zhang T, Dai S T, Xiao L Y 2011 Chin. Phys. B 20 027402
[6] [7] Goyal A, Norton D P, Budai J D, Paranthaman M, Specht E D, Kroeger D M, Christen D K, He Q, Saffian B, List F A, Lee D F, Martin P M, Klabunde C E, Hartfield E, Sikka V K 1996 Appl. Phys. Lett. 69 795
[8] Iijima Y, Tanabe N, Kohno O, Ikeno Y 1992 Appl. Phys. Lett. 60 769
[9] [10] [11] Bauer M, Metzger R, Semerad R, Berberich P, Kinder H 2000 Mater. Res. Soc. Symp. Proc. 585 35
[12] Sakamoto H, Nagasu Y, Ohashi Y, Nakasaki R, Mimura M, Nakai A 2007 Physica C 463-465 600
[13] [14] Zhou Y X, Ghalsasi S V, Hanna M, Tang Z J, Meng R L, Salama K 2007 IEEE Trans. Appl. Supercond. 17 3428
[15] [16] Eickemeyer J, Hhne R, Gth A, Rodig C, Klau H, Holzapfel B 2008 Supercond. Sci. Technol. 21 105012
[17] [18] Kim K T, Lim J H, Kim J H, Joo J 2004 Physica C 412-414 859
[19] [20] Suo H L, Zhao Y, Liu M, Zhang Y X, He D, Ma L, Ji Y, Zhou M L 2008 Acta Mater. 56 23
[21] [22] Suo H L, Zhao Y, Liu M, Ma L, He D, Zhang Y X, Zhou M L 2007 IEEE Trans. Appl. Supercond. 17 3420
[23] -
[1] Fleshler S, Buczek D, Carter B, Cedrone P, DeMoranville K, Gannon J, Inch J, Li X, Lynch J, Otto A, Podtburg E, Roy D, Rupich M, Sathyamurthy S, Schreiber J, Thieme C, Thompson E, Tucker D, Nagashima K, Ogata M 2009 Physica C 469 1316
[2] [3] Shi D Q, Ma P, Ko R K, Kim H S, Chung J K, Song K J, Park C 2007 Chin. Phys. B 16 2142
[4] [5] Ding F Z, Gu H W, Zhang T, Dai S T, Xiao L Y 2011 Chin. Phys. B 20 027402
[6] [7] Goyal A, Norton D P, Budai J D, Paranthaman M, Specht E D, Kroeger D M, Christen D K, He Q, Saffian B, List F A, Lee D F, Martin P M, Klabunde C E, Hartfield E, Sikka V K 1996 Appl. Phys. Lett. 69 795
[8] Iijima Y, Tanabe N, Kohno O, Ikeno Y 1992 Appl. Phys. Lett. 60 769
[9] [10] [11] Bauer M, Metzger R, Semerad R, Berberich P, Kinder H 2000 Mater. Res. Soc. Symp. Proc. 585 35
[12] Sakamoto H, Nagasu Y, Ohashi Y, Nakasaki R, Mimura M, Nakai A 2007 Physica C 463-465 600
[13] [14] Zhou Y X, Ghalsasi S V, Hanna M, Tang Z J, Meng R L, Salama K 2007 IEEE Trans. Appl. Supercond. 17 3428
[15] [16] Eickemeyer J, Hhne R, Gth A, Rodig C, Klau H, Holzapfel B 2008 Supercond. Sci. Technol. 21 105012
[17] [18] Kim K T, Lim J H, Kim J H, Joo J 2004 Physica C 412-414 859
[19] [20] Suo H L, Zhao Y, Liu M, Zhang Y X, He D, Ma L, Ji Y, Zhou M L 2008 Acta Mater. 56 23
[21] [22] Suo H L, Zhao Y, Liu M, Ma L, He D, Zhang Y X, Zhou M L 2007 IEEE Trans. Appl. Supercond. 17 3420
[23]
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