NUMERICAL-CALCULATION OF FLUX PINNING BY ALPHA-TI PRECIPITATES IN NB-TI

被引：6

作者：

STEJIC, G ^{[1
]}

COOLEY, LD ^{[1
]}

JOYNT, R ^{[1
]}

LARBALESTIER, DC ^{[1
]}

TAKACS, S ^{[1
]}

机构：

[1] SLOVAK ACAD SCI, INST ELECT ENGN, CS-84239 BRATISLAVA, CZECHOSLOVAKIA

来源：

SUPERCONDUCTOR SCIENCE & TECHNOLOGY | 1992年 / 5卷

关键词：

D O I：

10.1088/0953-2048/5/1S/037

中图分类号：

O59 [应用物理学];

学科分类号：

摘要：

We have numerically calculated the elementary pinning force, f(p) and the bulk pinning force, F(p), for Nb-Ti alloys containing alpha-Ti ribbon-like precipitates. The Nb-Ti microstructure is modelled as an array of parallel slabs of normal alpha-Ti of thickness d(n) < 5-xi separated by superconducting Nb-Ti of thickness d(s) < 5-xi. We solve the Ginzburg-Landau (G-L) equations, for each alloy, to obtain the order parameter PHI(o)(r) within the structure. The fluxon-pin interaction is calculated by overlapping PHI(o)(r) with PHI(f)(r), the order parameter around the fluxon core, and re-evaluating the G-L free energy. Repeating this process as a function of fluxon position, we can map out the pinning potential and calculate both f(p) and F(p) for each model alloy. f(p) is found to increase steadily but non-linearly for d(n) < 1.5-xi and plateau for d(n) > 3-xi. Additionally, we note an enhancement in f(p) for 1.5-xi < d(n) < 3-xi due to the proximity effect. Our F(p) calculations predict a maximum for an alloy with d(n) = 1.0-xi and d(s) = 1.6-xi. This result suggests that a Nb-Ti alloy with 40vol% alpha-Ti and 6 nm thick ribbons would maximize F(p) and yield an increase in J(c) of 40% over present alloys. In addition, our theoretical results for F(p) closely parallel the experimental results of Meingast and Larbalestier[1] for F(p) as a function of the pin thickness and the results of Lee and Larbalestier for F(p) as a function of alpha-Ti volume fraction[2].

引用

页码：S176 / S179

页数：4

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