Basal-Plane Magnetic Anisotropies of High-kappa d-Wave Superconductors in a Mixed State: A Quasiclassical Approach
Abstract
We study the basal-plane anisotropies of reversible magnetization and torque in a mixed state of layered d-wave superconductors based on the quasiclassical version of the BCS-Gor'kov theory. Both the longitudinal magnetization (ML) and torque (τ) show fourfold oscillations as a function of the field angle . The relationship between the node position and the oscillatory patterns shown by ML and τ is clarified. It is also shown that the sign of the τ ()-oscillation does not change between Hc1 and Hc2, while the sign of the ML ()-oscillation changes. The newly obtained result for τ indicates that the torque experiment can allow us to detect the in-plane anisotropies of Hc2 even in a material with strong fluctuations such as cuprate or organic superconductors, where the Hc2 itself cannot be determined experimentally.
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