Authors
Junhyeok Jeong, Kifu Kurokawa, Shiro Sakai, Tomotaka Nakayama, Kotaro Ando, Naoshi Ogane, Soonsang Huh, Matthew D Watson, Timur K Kim, Cephise Cacho, Chun Lin, Makoto Hashimoto, Donghui Lu, Takami Tohyama, Kazuyasu Tokiwa, Takeshi Kondo
Published in
Nature communications. Jul 14, 2026. Epub Jul 14, 2026.
Abstract
In multilayered high-Tc cuprates, the inner CuO2 planes (IPs) are spatially separated from dopant layers and thus remain cleaner than the outer planes (OPs). Here, we investigate five-layer (Cu,C)Ba2Ca4Cu5Oy (Cu1245) and three-layer Ba2Ca2Cu3O6(F,O)2 (F0223) using angle-resolved photoemission spectroscopy (ARPES) and uncover an unprecedented situation, in which only the IPs become superconducting while the OPs remain metallic at low temperatures. Our model calculations indicate that over 95% of the OP wavefunction remains confined to OP itself, rendering superconducting proximity negligible. This interlayer decoupling realizes an ideal configuration-a single superconducting CuO2 layer screened from the dopant layer-induced disorder by heavily overdoped metallic OPs. The clean CuO2 layer exhibits a large superconducting gap with coherent Bogoliubov peaks extending beyond the antiferromagnetic zone boundary, and a widely extended coherent flat band at the Brillouin zone edge. These findings introduce the "degree of screening" as a physical parameter for probing competition between pseudogap and superconductivity, and for bridging typically disordered real materials with the idealized theoretical models.
PMID:
42449102
Bibliographic data and abstract were imported from PubMed on 15 Jul 2026.
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