Controlling a Van Hove singularity and Fermi surface topology at a complex oxide heterostructure interface

被引:14
|
作者
Mori, Ryo [1 ,2 ]
Marshall, Patrick B. [3 ]
Ahadi, Kaveh [3 ]
Denlinger, Jonathan D. [4 ]
Stemmer, Susanne [3 ]
Lanzara, Alessandra [1 ,5 ]
机构
[1] Lawrence Berkeley Natl Lab, Mat Sci Div, Berkeley, CA 94720 USA
[2] Univ Calif Berkeley, Appl Sci & Technol, Berkeley, CA 94720 USA
[3] Univ Calif Santa Barbara, Mat Dept, Santa Barbara, CA 93106 USA
[4] Lawrence Berkeley Natl Lab, Adv Light Source, Berkeley, CA 94720 USA
[5] Univ Calif Berkeley, Dept Phys, Berkeley, CA 94720 USA
来源
NATURE COMMUNICATIONS | 2019年 / 10卷 / 1期
基金
美国国家科学基金会;
关键词
2-DIMENSIONAL ELECTRON-GAS; T-C; FILMS; SUPERCONDUCTIVITY; FERROMAGNETISM; ENHANCEMENT; MECHANISM; BEHAVIOR; GROWTH; PHASES;
D O I
10.1038/s41467-019-13046-z
中图分类号
O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];
学科分类号
07 ; 0710 ; 09 ;
摘要
The emergence of saddle-point Van Hove singularities (VHSs) in the density of states, accompanied by a change in Fermi surface topology, Lifshitz transition, constitutes an ideal ground for the emergence of different electronic phenomena, such as superconductivity, pseudo-gap, magnetism, and density waves. However, in most materials the Fermi level, E-F, is too far from the VHS where the change of electronic topology takes place, making it difficult to reach with standard chemical doping or gating techniques. Here, we demonstrate that this scenario can be realized at the interface between a Mott insulator and a band insulator as a result of quantum confinement and correlation enhancement, and easily tuned by fine control of layer thickness and orbital occupancy. These results provide a tunable pathway for Fermi surface topology and VHS engineering of electronic phases.
引用
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页数:7
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