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Main Authors: Jeong, Junhyeok, Kurokawa, Kifu, Sakai, Shiro, Nakayama, Tomotaka, Ando, Kotaro, Ogane, Naoshi, Huh, Soonsang, Watson, Matthew D., Kim, Timur K., Cacho, Cephise, Lin, Chun, Hashimoto, Makoto, Lu, Donghui, Tohyama, Takami, Tokiwa, Kazuyasu, Kondo, Takeshi
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.23260
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author Jeong, Junhyeok
Kurokawa, Kifu
Sakai, Shiro
Nakayama, Tomotaka
Ando, Kotaro
Ogane, Naoshi
Huh, Soonsang
Watson, Matthew D.
Kim, Timur K.
Cacho, Cephise
Lin, Chun
Hashimoto, Makoto
Lu, Donghui
Tohyama, Takami
Tokiwa, Kazuyasu
Kondo, Takeshi
author_facet Jeong, Junhyeok
Kurokawa, Kifu
Sakai, Shiro
Nakayama, Tomotaka
Ando, Kotaro
Ogane, Naoshi
Huh, Soonsang
Watson, Matthew D.
Kim, Timur K.
Cacho, Cephise
Lin, Chun
Hashimoto, Makoto
Lu, Donghui
Tohyama, Takami
Tokiwa, Kazuyasu
Kondo, Takeshi
contents In multilayered high-Tc cuprates with three or more CuO2 layers per unit cell, the inner CuO2 planes (IPs) are spatially separated from the dopant layers and thus remain cleaner than the outer planes (OPs). While both interlayer coupling and the presence of clean IPs have been proposed as key factors enhancing superconductivity, their individual roles have been difficult to disentangle, as IPs and OPs typically become superconducting simultaneously. Here we investigate five-layer (Cu,C)Ba2Ca4Cu5Oy (Cu1245) with Tc = 78 K and three-layer Ba2Ca2Cu3O6(F,O)2 (F0223) with Tc = 100 K using ARPES, and uncover an unprecedented situation, in which only the IPs become superconducting while the OPs remain metallic at low temperatures. Model calculations indicate that more than 95% of the OP wavefunction remains confined to OP itself, with minimal hybridization from the superconducting IPs. In particular, we experimentally realize an ideal configuration: a single superconducting CuO2 layer sandwiched between heavily overdoped metallic outer layers, which screen disorder originating from the dopant layers. Strikingly, this clean CuO2 layer exhibits the largest superconducting gap among all known cuprates and coherent Bogoliubov peaks extending beyond the antiferromagnetic zone boundary -- long regarded as the boundary beyond which coherence vanishes in heavily underdoped cuprates. Furthermore, a widely extended coherent flat band emerges at the Brillouin zone edge, overcoming the pseudogap damping effect. Our results introduce a new physical parameter, the degree of screening, to investigate the competition between superconductivity and the pseudogap, potentially shedding new light on its origin. The nearly disorder-free superconducting CuO2 layers offer a model platform for bridging the gap between disordered real materials and idealized theoretical models, which generally neglect disorder effects.
format Preprint
id arxiv_https___arxiv_org_abs_2507_23260
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Superconducting coherence boosted by outer-layer metallic screening in multilayered cuprates
Jeong, Junhyeok
Kurokawa, Kifu
Sakai, Shiro
Nakayama, Tomotaka
Ando, Kotaro
Ogane, Naoshi
Huh, Soonsang
Watson, Matthew D.
Kim, Timur K.
Cacho, Cephise
Lin, Chun
Hashimoto, Makoto
Lu, Donghui
Tohyama, Takami
Tokiwa, Kazuyasu
Kondo, Takeshi
Superconductivity
Materials Science
Strongly Correlated Electrons
In multilayered high-Tc cuprates with three or more CuO2 layers per unit cell, the inner CuO2 planes (IPs) are spatially separated from the dopant layers and thus remain cleaner than the outer planes (OPs). While both interlayer coupling and the presence of clean IPs have been proposed as key factors enhancing superconductivity, their individual roles have been difficult to disentangle, as IPs and OPs typically become superconducting simultaneously. Here we investigate five-layer (Cu,C)Ba2Ca4Cu5Oy (Cu1245) with Tc = 78 K and three-layer Ba2Ca2Cu3O6(F,O)2 (F0223) with Tc = 100 K using ARPES, and uncover an unprecedented situation, in which only the IPs become superconducting while the OPs remain metallic at low temperatures. Model calculations indicate that more than 95% of the OP wavefunction remains confined to OP itself, with minimal hybridization from the superconducting IPs. In particular, we experimentally realize an ideal configuration: a single superconducting CuO2 layer sandwiched between heavily overdoped metallic outer layers, which screen disorder originating from the dopant layers. Strikingly, this clean CuO2 layer exhibits the largest superconducting gap among all known cuprates and coherent Bogoliubov peaks extending beyond the antiferromagnetic zone boundary -- long regarded as the boundary beyond which coherence vanishes in heavily underdoped cuprates. Furthermore, a widely extended coherent flat band emerges at the Brillouin zone edge, overcoming the pseudogap damping effect. Our results introduce a new physical parameter, the degree of screening, to investigate the competition between superconductivity and the pseudogap, potentially shedding new light on its origin. The nearly disorder-free superconducting CuO2 layers offer a model platform for bridging the gap between disordered real materials and idealized theoretical models, which generally neglect disorder effects.
title Superconducting coherence boosted by outer-layer metallic screening in multilayered cuprates
topic Superconductivity
Materials Science
Strongly Correlated Electrons
url https://arxiv.org/abs/2507.23260