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Magnetism fosters unusual electronic order in quantum material

Experiments reveal link between intertwined states in ‘kagome’ metal

Magnetism fosters unusual electronic order in quantum material
2023-03-13
(Press-News.org) HOUSTON – (March 13, 2023) – Physicists were surprised by the 2022 discovery that electrons in magnetic iron-germanium crystals could spontaneously and collectively organize their charges into a pattern featuring a standing wave. Magnetism also arises from the collective self-organization of electron spins into ordered patterns, and those patterns rarely coexist with the patterns that produce the standing wave of electrons physicists call a charge density wave.

In a study published this week in Nature Physics, Rice University physicists Ming Yi and Pengcheng Dai, and many of their collaborators from the 2022 study, present an array of experimental evidence that shows their charge density wave discovery was rarer still, a case where the magnetic and electronic orders don’t simply coexist but are directly linked.

“We found magnetism subtly modifies the landscape of electron energy states in the material in a way that both promotes and prepares for the formation of the charge density wave,” said Yi, a co-corresponding author of the study.

The study was co-authored by more than a dozen researchers from Rice; Oak Ridge National Laboratory (ORNL); SLAC National Accelerator Laboratory; Lawrence Berkeley National Laboratory (LBNL); the University of Washington; the University of California, Berkeley; Israel’s Weizmann Institute of Science; and China’s Southern University of Science and Technology.

The iron-germanium materials are kagome lattice crystals, a much-studied family of materials featuring 2D arrangements of atoms reminiscent of the weave pattern in traditional Japanese kagome baskets, which features equilateral triangles that touch at the corners.

“Kagome materials have taken the quantum materials world by storm recently,” Yi said. “The cool thing about this structure is that the geometry imposes interesting quantum constraints on the way the electrons are allowed to zoom around, somewhat analogous to how traffic roundabouts affect the flow of traffic and sometimes bring it to a stop.”

By nature, electrons avoid one another. One way they do this is to order their magnetic states — spins that point either up or down — in the opposite direction of their neighbors’ spins.

Dai, a co-corresponding study author, said, “When put onto kagome lattices, electrons can also appear in a state where they are stuck and cannot go anywhere due to quantum interference effects.”

When electrons cannot move, the triangular arrangement produces a situation where each has three neighbors, and there is no way for electrons to collectively order all neighboring spins in opposite directions. The inherent frustration of electrons in Kagome lattice materials has long been recognized.

Yi said the lattice restricts electrons in ways that “can have a direct impact on the observable properties of the material,” and the team was able to use that “to probe deeper into the origins of the intertwinement of the magnetism and charge density wave” in iron-germanium.

They did so using a combination of inelastic neutron scattering experiments, which were performed at ORNL, and angle-resolved photoemission spectroscopy experiments that were performed at LBNL’s Advanced Light Source and SLAC’s Stanford Synchrotron Radiation Lightsource, as well in Yi’s lab at Rice.

“These probes allowed us to look at what both the electrons and the lattice were doing as the charge density wave was taking shape,” she said.

Dai said the findings confirmed the team’s hypothesis that charge order and magnetic order are linked in iron-germanium. “This is one of the very few, if not of the only, known example of a kagome material where magnetism forms first, preparing the way for charges to line up,” he said.

Yi said the work shows how curiosity and basic research into natural phenomena can eventually lead to applied science.

“As physicists, we are always excited when we find materials that spontaneously form an order of some sort,” she said. “This means there is a chance for us to learn about the self-organizational abilities of the fundamental particles of quantum materials. Only with that kind of understanding can we one day hope to engineer materials with novel or exotic properties that we can control at will.”

Dai is the Sam and Helen Worden Professor of Physics and Astronomy. Dai and Yi are each members of the Rice Quantum Initiative and the Rice Center for Quantum Materials (RCQM).

The research at Rice was supported by the Gordon and Betty Moore Foundation’s EPiQS Initiative (GBMF9470), the Welch Foundation (C-2024, C-1839), the Department of Energy (DE-SC0021421) and the National Science Foundation (2100741, 1921847).

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Peer-reviewed paper:

“Magnetism and charge density wave order in kagome FeGe” | Nature Physics | DOI: 10.1038/s41567-023-01985-w

Authors: Xiaokun Teng, Ji Seop Oh, Hengxin Tan, Lebing Chen, Jianwei Huang, Bin Gao, Jia- Xin Yin, Jiun-Haw Chu, Makoto Hashimoto, Donghui Lu, Chris Jozwiak, Aaron Bostwick, Eli Rotenberg, Garrett E. Granroth, Binghai Yan, Robert J. Birgeneau, Pengcheng Dai and Ming Yi

https://doi.org/10.1038/s41567-023-01985-w

Image downloads:

https://news-network.rice.edu/news/files/2023/03/0313_KAGOME-fig-lg.jpg
CAPTION: (left) Kagome lattice; (middle) Fermi surface of the magnetic phase of iron-germanium before the onset of a charge density wave; (right) Fermi surface of iron-germanium after the onset of a charge density wave. (Figure and images courtesy of Ming Yi/Rice University)

https://news-network.rice.edu/news/files/2023/03/0313_KAGOME-figV-lg.jpg
CAPTION: (top) Kagome lattice; (middle) Fermi surface of the magnetic phase of iron-germanium before the onset of a charge density wave; (bottom) Fermi surface of iron-germanium after the onset of a charge density wave. (Figure and images courtesy of Ming Yi/Rice University)

https://news-network.rice.edu/news/files/2023/03/0313_KAGOME-my108Fit-lg.jpg
CAPTION: Ming Yi (Photo by Jeff Fitlow/Rice University)

https://news-network.rice.edu/news/files/2023/03/0313_KAGOME-pd15Fit-lg.jpg
CAPTION: Pengcheng Dai (Photo by Jeff Fitlow/Rice University)

Related stories:

Interwoven: Charge and magnetism intertwine in kagome material – Sept. 14, 2022
https://news.rice.edu/news/2022/interwoven-charge-and-magnetism-intertwine-kagome-material

Spinning is key for line-dancing electrons in iron selenide – May 20, 2022
https://news.rice.edu/news/2022/spinning-key-line-dancing-electrons-iron-selenide

Rice physicist Pengcheng Dai wins superconductivity award – Jan. 14, 2022
https://news.rice.edu/news/2022/rice-physicist-pengcheng-dai-wins-superconductivity-award

Physicists find room-temperature, 2D-to-1D topological transition – Aug. 24, 2021
https://news.rice.edu/news/2021/physicists-find-room-temperature-2d-1d-topological-transition

Rice U. physicist Ming Yi wins coveted Moore Foundation grant – May 28, 2020
https://news.rice.edu/news/2020/rice-u-physicist-ming-yi-wins-coveted-moore-foundation-grant

Electronic map reveals 'rules of the road' in superconductor – Dec. 19, 2019
https://news2.rice.edu/2019/12/06/electronic-map-reveals-rules-of-the-road-in-superconductor/

This release can be found online at news.rice.edu.

Follow Rice News and Media Relations via Twitter @RiceUNews.

Located on a 300-acre forested campus in Houston, Rice University is consistently ranked among the nation’s top 20 universities by U.S. News & World Report. Rice has highly respected schools of Architecture, Business, Continuing Studies, Engineering, Humanities, Music, Natural Sciences and Social Sciences and is home to the Baker Institute for Public Policy. With 4,240 undergraduates and 3,972 graduate students, Rice’s undergraduate student-to-faculty ratio is just under 6-to-1. Its residential college system builds close-knit communities and lifelong friendships, just one reason why Rice is ranked No. 1 for lots of race/class interaction and No. 1 for quality of life by the Princeton Review. Rice is also rated as a best value among private universities by Kiplinger’s Personal Finance.

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[Press-News.org] Magnetism fosters unusual electronic order in quantum material
Experiments reveal link between intertwined states in ‘kagome’ metal