Ultra-flat and long-lived plasmons in a strongly correlated oxide

Gao, Han; Ding, Chao; Son, Jaeseok; Zhu, Yangyu; Wang, Mingzheng; Yu, Zhi Gen; Chen, Jianing; Wang, Le; Chambers, Scott A.; Noh, Tae Won; Zhao, Mingwen; Li, Yangyang

Ultra-flat and long-lived plasmons in a strongly correlated oxide

Han Gao, Chao Ding, Jaeseok Son, Yangyu Zhu, Mingzheng Wang, Zhi Gen Yu, Jianing Chen, Le Wang, Scott A. Chambers, Tae Won Noh, Mingwen Zhao () and Yangyang Li ()
Additional contact information
Han Gao: Shandong University
Chao Ding: Shandong University
Jaeseok Son: Institute for Basic Science (IBS)
Yangyu Zhu: Shandong University
Mingzheng Wang: Shandong University
Zhi Gen Yu: Institute of High Performance Computing
Jianing Chen: Chinese Academy of Science and Collaborative Innovation Center of Quantum Matter
Le Wang: Pacific Northwest National Laboratory
Scott A. Chambers: Pacific Northwest National Laboratory
Tae Won Noh: Institute for Basic Science (IBS)
Mingwen Zhao: Shandong University
Yangyang Li: Shandong University

Nature Communications, 2022, vol. 13, issue 1, 1-9

Abstract: Abstract Plasmons in strongly correlated systems are attracting considerable attention due to their unconventional behavior caused by electronic correlation effects. Recently, flat plasmons with nearly dispersionless frequency-wave vector relations have drawn significant interest because of their intriguing physical origin and promising applications. However, these flat plasmons exist primarily in low-dimensional materials with limited wave vector magnitudes (q

Date: 2022
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DOI: 10.1038/s41467-022-32359-0

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