【 摘 要 】

It has been recently reported that a superconducting triplet spin valve (TSV) based on the half-metallic CrO2 can show colossal variations of the critical temperature, up to more than 1 K. This can be achieved when the magnetic noncollinearity between the mixer (F-1) and the drainage ferromagnetic layer (F) is maximized. In this work we investigate further such TSV devices looking at two aspects: first, we present the dependence of the TSV effect on the thickness of the mixer layer; second, we look at the perpendicular upper critical field H-c2 perpendicular to as a function of the temperature. The thickness dependence, which is nonmonotonic as expected, represents a further proof that the effect is due to the generation of equal-spin triplet Cooper pairs, while what we observe for the H-c2 perpendicular to versus T curves is an interesting and peculiar behavior: there is a clear deviation from the universal linear dependence and the average slope is suppressed much more than what can be described with the formalism used for conventional proximized structures.

【 授权许可】

Free