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Orbital-dependent electron correlation in double-layer nickelate La 3 Ni 2 O 7 .

Jiangang YangHualei SunXunwu HuYuyang XieTaimin MiaoHai-Lan LuoHao ChenBo LiangWenpei ZhuGexing QuCui-Qun ChenMengwu HuoYaobo HuangShenjin ZhangFengfeng ZhangFeng YangZhimin WangQinjun PengHanqing MaoGuodong LiuZuyan XuTian QianDao-Xin YaoMeng WangLin ZhaoXingjiang Zhou
Published in: Nature communications (2024)
The latest discovery of high temperature superconductivity near 80 K in La 3 Ni 2 O 7 under high pressure has attracted much attention. Many proposals are put forth to understand the origin of superconductivity. The determination of electronic structures is a prerequisite to establish theories to understand superconductivity in nickelates but is still lacking. Here we report our direct measurement of the electronic structures of La 3 Ni 2 O 7 by high-resolution angle-resolved photoemission spectroscopy. The Fermi surface and band structures of La 3 Ni 2 O 7 are observed and compared with the band structure calculations. Strong electron correlations are revealed which are orbital- and momentum-dependent. A flat band is formed from the Ni-3d z 2 orbitals around the zone corner which is ~ 50 meV below the Fermi level and exhibits the strongest electron correlation. In many theoretical proposals, this band is expected to play the dominant role in generating superconductivity in La 3 Ni 2 O 7 . Our observations provide key experimental information to understand the electronic structure and origin of high temperature superconductivity in La 3 Ni 2 O 7 .
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