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Intertwined density waves in a metallic nickelate

by Norman, M. R. , Krogstad, M. , Qiu, Yiming , Zhang, Junjie , Osborn, R. , Chen, Yu-Sheng , Phelan, D. , Rodriguez-Rivera, J. A. , Wang, Suyin Grass , Mitchell, J. F. , Rosenkranz, S. , Botana, A. S. , Zheng, Hong

in 639/301/119/995 / 639/766/119/1002 / 639/766/119/997 / Chromium / Coupling / Degrees of freedom / Density / Fermi surfaces / Humanities and Social Sciences / Laboratories / Lanthanum / Magnets / MATERIALS SCIENCE / Metal oxides / Metals / multidisciplinary / Perovskites / Physical properties / Praseodymium / Science / Science (multidisciplinary) / Superconductors / Temperature / Transition metal oxides / Two dimensional materials / X-rays

2020

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Intertwined density waves in a metallic nickelate

2020

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2020

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Journal Article

Intertwined density waves in a metallic nickelate

Norman, M. R.,

Krogstad, M.,

Qiu, Yiming,

Zhang, Junjie,

Osborn, R.,

Chen, Yu-Sheng,

Phelan, D.,

Rodriguez-Rivera, J. A.,

Wang, Suyin Grass,

Mitchell, J. F.,

Rosenkranz, S.,

Botana, A. S.,

Zheng, Hong

2020

Overview

Nickelates are a rich class of materials, ranging from insulating magnets to superconductors. But for stoichiometric materials, insulating behavior is the norm, as for most late transition metal oxides. Notable exceptions are the 3D perovskite LaNiO 3 , an unconventional paramagnetic metal, and the layered Ruddlesden-Popper phases R 4 Ni 3 O 10 , (R = La, Pr, Nd). The latter are particularly intriguing because they exhibit an unusual metal-to-metal transition. Here, we demonstrate that this transition results from an incommensurate density wave with both charge and magnetic character that lies closer in its behavior to the metallic density wave seen in chromium metal than the insulating stripes typically found in single-layer nickelates like La 2- x Sr x NiO 4 . We identify these intertwined density waves as being Fermi surface-driven, revealing a novel ordering mechanism in this nickelate that reflects a coupling among charge, spin, and lattice degrees of freedom that differs not only from the single-layer materials, but from the 3D perovskites as well. Layered Ruddlesden-Popper structure nickelates R 4 Ni 3 O 10 ( R = La,Pr) show an unusual metal-to-metal transition, but its origin has remained elusive for more than two decades. Here, the authors show that this transition results from intertwined density waves that arise from a coupling between charge and spin degrees of freedom

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Publisher

Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio

Subject

/ Density