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Paper detail

Orbital selectivity of layer resolved tunneling on iron superconductor Ba0.6K0.4Fe2As2

We use scanning tunneling microscopy/spectroscopy (STM/S) to elucidate the Cooper pairing of the iron pnictide superconductor Ba0.6K0.4Fe2As2. By a cold-cleaving technique, we obtain atomically resolved termination surfaces with different layer identities. Remarkably, we observe that the low-energy tunneling spectrum related to superconductivity has an unprecedented dependence on the layer-identity. By cross-referencing with the angle-revolved photoemission results and the tunneling data of LiFeAs, we find that tunneling on each termination surface probes superconductivity through selecting distinct Fe-3d orbitals. These findings imply the real-space orbital features of the Cooper pairing in the iron pnictide superconductors, and propose a new and general concept that, for complex multi-orbital material, tunneling on different terminating layers can feature orbital selectivity.

preprint2020arXivOpen access
J. -X. YinX. -X. WuJian LiZheng WuJ. -H. WangC. -S. TingP. -H. HorX. J. LiangC. L. ZhangP. C. DaiX. C. WangC. Q. JinG. F. ChenJ. P. HuZ. -Q. WangAng LiH. DingS. H. Pan
cond-mat.supr-con
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J. -X. YinX. -X. WuJian LiZheng WuJ. -H. WangC. -S. TingP. -H. HorX. J. LiangC. L. ZhangP. C. DaiX. C. WangC. Q. JinG. F. ChenJ. P. HuZ. -Q. WangAng LiH. DingS. H. Pan

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