Kondo interaction in FeTe and its potential role in the magnetic order

Younsik Kim; Min Seok Kim; Dongwook Kim; Minjae Kim; Minsoo Kim; Cheng Maw Cheng; Joonyoung Choi; Saegyeol Jung; Donghui Lu; Jong Hyuk Kim; Soohyun Cho; Dongjoon Song; Dongjin Oh; Li Yu; Young Jai Choi; Hyeong Do Kim; Jung Hoon Han; Younjung Jo; Ji Hoon Shim; Jungpil Seo; Soonsang Huh; Changyoung Kim

doi:10.1038/s41467-023-39827-1

Kondo interaction in FeTe and its potential role in the magnetic order

Younsik Kim
, Min Seok Kim
, Dongwook Kim
, Minjae Kim
, Minsoo Kim
, Cheng Maw Cheng
, Joonyoung Choi
, Saegyeol Jung
, Donghui Lu
, Jong Hyuk Kim
, Soohyun Cho
, Dongjoon Song
, Dongjin Oh
, Li Yu
, Young Jai Choi
, Hyeong Do Kim
, Jung Hoon Han
, Younjung Jo
, Ji Hoon Shim
, Jungpil Seo

Soonsang Huh, Changyoung Kim

Department of Physics

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

Finding d-electron heavy fermion states has been an important topic as the diversity in d-electron materials can lead to many exotic Kondo effect-related phenomena or new states of matter such as correlation-driven topological Kondo insulator. Yet, obtaining direct spectroscopic evidence for a d-electron heavy fermion system has been elusive to date. Here, we report the observation of Kondo lattice behavior in an antiferromagnetic metal, FeTe, via angle-resolved photoemission spectroscopy, scanning tunneling spectroscopy and transport property measurements. The Kondo lattice behavior is represented by the emergence of a sharp quasiparticle and Fano-type tunneling spectra at low temperatures. The transport property measurements confirm the low-temperature Fermi liquid behavior and reveal successive coherent-incoherent crossover upon increasing temperature. We interpret the Kondo lattice behavior as a result of hybridization between localized Fe 3d_xy and itinerant Te 5p_z orbitals. Our observations strongly suggest unusual cooperation between Kondo lattice behavior and long-range magnetic order.

Original language	English
Article number	4145
Journal	Nature Communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-39827-1
State	Published - Dec 2023

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Kim, Y., Kim, M. S., Kim, D., Kim, M., Kim, M., Cheng, C. M., Choi, J., Jung, S., Lu, D., Kim, J. H., Cho, S., Song, D., Oh, D., Yu, L., Choi, Y. J., Kim, H. D., Han, J. H., Jo, Y., Shim, J. H., ... Kim, C. (2023). Kondo interaction in FeTe and its potential role in the magnetic order. Nature Communications, 14(1), Article 4145. https://doi.org/10.1038/s41467-023-39827-1

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title = "Kondo interaction in FeTe and its potential role in the magnetic order",

abstract = "Finding d-electron heavy fermion states has been an important topic as the diversity in d-electron materials can lead to many exotic Kondo effect-related phenomena or new states of matter such as correlation-driven topological Kondo insulator. Yet, obtaining direct spectroscopic evidence for a d-electron heavy fermion system has been elusive to date. Here, we report the observation of Kondo lattice behavior in an antiferromagnetic metal, FeTe, via angle-resolved photoemission spectroscopy, scanning tunneling spectroscopy and transport property measurements. The Kondo lattice behavior is represented by the emergence of a sharp quasiparticle and Fano-type tunneling spectra at low temperatures. The transport property measurements confirm the low-temperature Fermi liquid behavior and reveal successive coherent-incoherent crossover upon increasing temperature. We interpret the Kondo lattice behavior as a result of hybridization between localized Fe 3dxy and itinerant Te 5pz orbitals. Our observations strongly suggest unusual cooperation between Kondo lattice behavior and long-range magnetic order.",

author = "Younsik Kim and Kim, \{Min Seok\} and Dongwook Kim and Minjae Kim and Minsoo Kim and Cheng, \{Cheng Maw\} and Joonyoung Choi and Saegyeol Jung and Donghui Lu and Kim, \{Jong Hyuk\} and Soohyun Cho and Dongjoon Song and Dongjin Oh and Li Yu and Choi, \{Young Jai\} and Kim, \{Hyeong Do\} and Han, \{Jung Hoon\} and Younjung Jo and Shim, \{Ji Hoon\} and Jungpil Seo and Soonsang Huh and Changyoung Kim",

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doi = "10.1038/s41467-023-39827-1",

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AU - Kim, Younsik

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AU - Kim, Minsoo

AU - Cheng, Cheng Maw

AU - Choi, Joonyoung

AU - Jung, Saegyeol

AU - Lu, Donghui

AU - Kim, Jong Hyuk

AU - Cho, Soohyun

AU - Song, Dongjoon

AU - Oh, Dongjin

AU - Yu, Li

AU - Choi, Young Jai

AU - Kim, Hyeong Do

AU - Han, Jung Hoon

AU - Jo, Younjung

AU - Shim, Ji Hoon

AU - Seo, Jungpil

AU - Huh, Soonsang

AU - Kim, Changyoung

PY - 2023/12

Y1 - 2023/12

N2 - Finding d-electron heavy fermion states has been an important topic as the diversity in d-electron materials can lead to many exotic Kondo effect-related phenomena or new states of matter such as correlation-driven topological Kondo insulator. Yet, obtaining direct spectroscopic evidence for a d-electron heavy fermion system has been elusive to date. Here, we report the observation of Kondo lattice behavior in an antiferromagnetic metal, FeTe, via angle-resolved photoemission spectroscopy, scanning tunneling spectroscopy and transport property measurements. The Kondo lattice behavior is represented by the emergence of a sharp quasiparticle and Fano-type tunneling spectra at low temperatures. The transport property measurements confirm the low-temperature Fermi liquid behavior and reveal successive coherent-incoherent crossover upon increasing temperature. We interpret the Kondo lattice behavior as a result of hybridization between localized Fe 3dxy and itinerant Te 5pz orbitals. Our observations strongly suggest unusual cooperation between Kondo lattice behavior and long-range magnetic order.

AB - Finding d-electron heavy fermion states has been an important topic as the diversity in d-electron materials can lead to many exotic Kondo effect-related phenomena or new states of matter such as correlation-driven topological Kondo insulator. Yet, obtaining direct spectroscopic evidence for a d-electron heavy fermion system has been elusive to date. Here, we report the observation of Kondo lattice behavior in an antiferromagnetic metal, FeTe, via angle-resolved photoemission spectroscopy, scanning tunneling spectroscopy and transport property measurements. The Kondo lattice behavior is represented by the emergence of a sharp quasiparticle and Fano-type tunneling spectra at low temperatures. The transport property measurements confirm the low-temperature Fermi liquid behavior and reveal successive coherent-incoherent crossover upon increasing temperature. We interpret the Kondo lattice behavior as a result of hybridization between localized Fe 3dxy and itinerant Te 5pz orbitals. Our observations strongly suggest unusual cooperation between Kondo lattice behavior and long-range magnetic order.

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Kondo interaction in FeTe and its potential role in the magnetic order

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