Abstract
For REBa 2 Cu 3 O x (REBCO, where RE = rare earth) coated conductor applications, the prominence of the background magnetic field H in the orientation of ab-plane urges an immediate and proper understanding of the ab-plane pinning and in turn, the critical current density J c tuning. In this work, we present our ab-plane pinning study of metal organic chemical vapor deposited (MOCVD) REBCO coated conductors based on our previous observation of a strong linear correlation between J c at 77 K and J c at lower temperatures T and higher magnetic fields H. In this work, we found that, below ~40 K, besides the weak uncorrelated pinning, the intrinsic pinning due to the layered crystal structure of REBCO with charge reservoir CuO planes also plays an essential role for J c (T, H||ab). Such intrinsic pinning is independent of H, and increases with decreasing T. Combined with the microstructure and J c (T, H, θ) analysis, we found that, at T above ~40 K, strong correlated pinning centers, such as stacking faults and RE 2 O 3 precipitates, govern J c (T, H||ab). Our work provides an understanding of ab-plane pinning in Zr-added REBCO coated conductors and guidance for further J c (T, H) enhancement.
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