1995
DOI: 10.1103/physrevb.51.1389
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Vortex channeling along twin planes inYBa2Cu3

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Cited by 101 publications
(48 citation statements)
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“…The conclusion is corroborated by measurements of the critical current densities j c of thin epitaxial YBCO films, which are known to be at least an order of magnitude larger than that for high-quality YBCO single crystals [18]. The main reason for that is strong flux pinning in the films caused by specific defects such as point defects in the CuO 2 planes [19], screw dislocations [20], and twin boundaries [21], expected to be also responsible for observed s¢( ) T dependence of the LD type. However, the properties of high-quality modern thin epitaxial HTSC films prepared by pulsed laser deposition [22] are believed to be mostly determined by some slight degree of miscut growth of the films, resulting in the appearance of specific growth-related defects [23,24].…”
Section: Introductionsupporting
confidence: 57%
“…The conclusion is corroborated by measurements of the critical current densities j c of thin epitaxial YBCO films, which are known to be at least an order of magnitude larger than that for high-quality YBCO single crystals [18]. The main reason for that is strong flux pinning in the films caused by specific defects such as point defects in the CuO 2 planes [19], screw dislocations [20], and twin boundaries [21], expected to be also responsible for observed s¢( ) T dependence of the LD type. However, the properties of high-quality modern thin epitaxial HTSC films prepared by pulsed laser deposition [22] are believed to be mostly determined by some slight degree of miscut growth of the films, resulting in the appearance of specific growth-related defects [23,24].…”
Section: Introductionsupporting
confidence: 57%
“…In our recent work we have shown that the magnetic J c strongly depends on the sample size. 4 In contrast to the high-T c superconductor materials 5 it was observed that in pure MgB 2 bulk samples H irr decreased as the sample volume decreased. Due to the dependence of J c on sample size, for a reliable comparison of J c values derived from magnetic measurements, sample size has to be carefully taken into account.…”
Section: Effect Of Sample Size On the Magnetic Critical Current Densimentioning
confidence: 97%
“…Superimposed to the problems arising from the small values in ξ is the difficulty due to the poly-elemental composition of the material with a variety of possible lattice defects giving rise to a plethora of pinning mechanisms with -probably -quite different efficiency. In YBCO single crystals randomly distributed point defects such as oxygen vacancies lead to a weak collective pinning [81,82], correlated pinning has been demonstrated to arise from twin boundaries [83] and artificial columnar defects generated by heavy particle irradiation [84]. They allow the appropriate alignment of the vortex system with the defect structure resulting in higher pinning forces compared to collective pinning induced by point defects.…”
Section: Controlled Generation Of Antiphase Boundariesmentioning
confidence: 99%