Increase of critical current density in FeSe superconductor by strain effect
Abstract
Conventional Jc-enhancement methods like doping and irradiation often introduce extrinsic elements or defects, altering intrinsic properties. Here, we report a significant Jc enhancement in FeSe single crystals through compressive strain applied using a glass-fiber-reinforced plastic substrate with anisotropic thermal contraction during cooling. Under zero field at 2 K, Jc increases by a factor of 4 from 2.3 × 104 to 8.7 × 104 A cm-2; at 5 T, it achieves an order-of-magnitude enhancement, rising from 1.0 × 103 to 1.0 × 104 A cm-2. Analysis based on the Dew-Hughes model of the fp(h) relationship shows that strain strengthens vortex pinning, and shifts the pinning mechanism from point-like pinning to combined point and surface pinnings. This work offers an effective method to enhance FeSe's current-carrying limitation, deepens understanding of iron-based superconductors' pinning mechanisms, and highlights strain engineering's potential for optimizing superconducting performance.
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