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Effects of heavy-ion irradiation on FeSe

arXiv:1703.07524 · doi:10.1103/PhysRevB.95.104514

Abstract

We report the effects of heavy-ion irradiation on FeSe single crystals by irradiating Uranium up to a dose equivalent matching field of $B_ϕ$ = 16 T. Almost continuous columnar defects along the $c$-axis with a diameter $\sim$10 nm are confirmed by high-resolution transmission electron microscopy. $T_c$ is found to be suppressed by introducing columnar defects at a rate of d$T_c$/d$B_ϕ$ $\sim$ -0.29KT$^{-1}$, which is much larger than those observed in iron pnictides. This unexpected large suppression of $T_c$ in FeSe is discussed in relation to the large diameter of the columnar defects as well as its unique band structure with a remarkably small Fermi energy. The critical current density is first dramatically enhanced with irradiation reaching a value over $\sim$2$\times$10$^5$ A/cm$^2$ ($\sim$5 times larger than that of the pristine sample) at 2 K (self-field) with $B_ϕ$ = 2 T, then gradually suppressed with increasing $B_ϕ$. The $δ$$l$-pinning associated with charge-carrier mean free path fluctuations, and the $δ$$T_c$-pinning associated with spatial fluctuations of the transition temperature are found to coexist in the pristine FeSe, while the irradiation increases the contribution from $δ$$l$-pinning, and makes it dominant over $B_ϕ$ = 4 T.

8 pages, 6 figures