Interlayer Coupling of a Two-Dimensional Kondo Lattice with a Ferromagnetic Surface in the Antiferromagnet CeCo2P2

Georg Poelchen; Igor P. Rusinov; Susanne Schulz; Monika Güttler; Max Mende; Alexander Generalov; Dmitry Yu Usachov; Steffen Danzenbächer; Johannes Hellwig; Marius Peters; Kristin Kliemt; Yuri Kucherenko; Victor N. Antonov; Clemens Laubschat; Evgueni V. Chulkov; Arthur Ernst; Kurt Kummer; Cornelius Krellner; Denis V. Vyalikh

doi:10.1021/acsnano.1c10705

Interlayer Coupling of a Two-Dimensional Kondo Lattice with a Ferromagnetic Surface in the Antiferromagnet CeCo₂P₂

Georg Poelchen, Igor P. Rusinov, Susanne Schulz, Monika Güttler, Max Mende, Alexander Generalov, Dmitry Yu Usachov, Steffen Danzenbächer, Johannes Hellwig, Marius Peters, Kristin Kliemt, Yuri Kucherenko, Victor N. Antonov, Clemens Laubschat, Evgueni V. Chulkov, Arthur Ernst, Kurt Kummer, Cornelius Krellner, Denis V. Vyalikh

MAX IV Laboratory

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

Abstract

The f-driven temperature scales at the surfaces of strongly correlated materials have increasingly come into the focus of research efforts. Here, we unveil the emergence of a two-dimensional Ce Kondo lattice, which couples ferromagnetically to the ordered Co lattice below the P-terminated surface of the antiferromagnet CeCo₂P₂. In its bulk, Ce is passive and behaves tetravalently. However, because of symmetry breaking and an effective magnetic field caused by an uncompensated ferromagnetic Co layer, the Ce 4f states become partially occupied and spin-polarized near the surface. The momentum-resolved photoemission measurements indicate a strong admixture of the Ce 4f states to the itinerant bands near the Fermi level including surface states that are split by exchange interaction with Co. The temperature-dependent measurements reveal strong changes of the 4f intensity at the Fermi level in accordance with the Kondo scenario. Our findings show how rich and diverse the f-driven properties can be at the surface of materials without f-physics in the bulk.

Original language	English
Pages (from-to)	3573-3581
Number of pages	9
Journal	ACS Nano
Volume	16
Issue number	3
DOIs	https://doi.org/10.1021/acsnano.1c10705
Publication status	Published - 2022 Mar 22

Subject classification (UKÄ)

Condensed Matter Physics (including Material Physics, Nano Physics)

Free keywords

angle-resolved photoemission spectroscopy
antiferromagnetic order
CeCoP
heavy fermion
two-dimensional ferromagnetism
two-dimensional Kondo lattice

Access to Document

10.1021/acsnano.1c10705

Cite this

Poelchen, G., Rusinov, I. P., Schulz, S., Güttler, M., Mende, M., Generalov, A., Usachov, D. Y., Danzenbächer, S., Hellwig, J., Peters, M., Kliemt, K., Kucherenko, Y., Antonov, V. N., Laubschat, C., Chulkov, E. V., Ernst, A., Kummer, K., Krellner, C., & Vyalikh, D. V. (2022). Interlayer Coupling of a Two-Dimensional Kondo Lattice with a Ferromagnetic Surface in the Antiferromagnet CeCo₂P₂. ACS Nano, 16(3), 3573-3581. https://doi.org/10.1021/acsnano.1c10705

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title = "Interlayer Coupling of a Two-Dimensional Kondo Lattice with a Ferromagnetic Surface in the Antiferromagnet CeCo2P2",

abstract = "The f-driven temperature scales at the surfaces of strongly correlated materials have increasingly come into the focus of research efforts. Here, we unveil the emergence of a two-dimensional Ce Kondo lattice, which couples ferromagnetically to the ordered Co lattice below the P-terminated surface of the antiferromagnet CeCo2P2. In its bulk, Ce is passive and behaves tetravalently. However, because of symmetry breaking and an effective magnetic field caused by an uncompensated ferromagnetic Co layer, the Ce 4f states become partially occupied and spin-polarized near the surface. The momentum-resolved photoemission measurements indicate a strong admixture of the Ce 4f states to the itinerant bands near the Fermi level including surface states that are split by exchange interaction with Co. The temperature-dependent measurements reveal strong changes of the 4f intensity at the Fermi level in accordance with the Kondo scenario. Our findings show how rich and diverse the f-driven properties can be at the surface of materials without f-physics in the bulk.",

keywords = "angle-resolved photoemission spectroscopy, antiferromagnetic order, CeCoP, heavy fermion, two-dimensional ferromagnetism, two-dimensional Kondo lattice",

author = "Georg Poelchen and Rusinov, \{Igor P.\} and Susanne Schulz and Monika G{\"u}ttler and Max Mende and Alexander Generalov and Usachov, \{Dmitry Yu\} and Steffen Danzenb{\"a}cher and Johannes Hellwig and Marius Peters and Kristin Kliemt and Yuri Kucherenko and Antonov, \{Victor N.\} and Clemens Laubschat and Chulkov, \{Evgueni V.\} and Arthur Ernst and Kurt Kummer and Cornelius Krellner and Vyalikh, \{Denis V.\}",

year = "2022",

month = mar,

day = "22",

doi = "10.1021/acsnano.1c10705",

language = "English",

volume = "16",

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Poelchen, G, Rusinov, IP, Schulz, S, Güttler, M, Mende, M, Generalov, A, Usachov, DY, Danzenbächer, S, Hellwig, J, Peters, M, Kliemt, K, Kucherenko, Y, Antonov, VN, Laubschat, C, Chulkov, EV, Ernst, A, Kummer, K, Krellner, C & Vyalikh, DV 2022, 'Interlayer Coupling of a Two-Dimensional Kondo Lattice with a Ferromagnetic Surface in the Antiferromagnet CeCo₂P₂', ACS Nano, vol. 16, no. 3, pp. 3573-3581. https://doi.org/10.1021/acsnano.1c10705

TY - JOUR

T1 - Interlayer Coupling of a Two-Dimensional Kondo Lattice with a Ferromagnetic Surface in the Antiferromagnet CeCo2P2

AU - Poelchen, Georg

AU - Rusinov, Igor P.

AU - Schulz, Susanne

AU - Güttler, Monika

AU - Mende, Max

AU - Generalov, Alexander

AU - Usachov, Dmitry Yu

AU - Danzenbächer, Steffen

AU - Hellwig, Johannes

AU - Peters, Marius

AU - Kliemt, Kristin

AU - Kucherenko, Yuri

AU - Antonov, Victor N.

AU - Laubschat, Clemens

AU - Chulkov, Evgueni V.

AU - Ernst, Arthur

AU - Kummer, Kurt

AU - Krellner, Cornelius

AU - Vyalikh, Denis V.

PY - 2022/3/22

Y1 - 2022/3/22

N2 - The f-driven temperature scales at the surfaces of strongly correlated materials have increasingly come into the focus of research efforts. Here, we unveil the emergence of a two-dimensional Ce Kondo lattice, which couples ferromagnetically to the ordered Co lattice below the P-terminated surface of the antiferromagnet CeCo2P2. In its bulk, Ce is passive and behaves tetravalently. However, because of symmetry breaking and an effective magnetic field caused by an uncompensated ferromagnetic Co layer, the Ce 4f states become partially occupied and spin-polarized near the surface. The momentum-resolved photoemission measurements indicate a strong admixture of the Ce 4f states to the itinerant bands near the Fermi level including surface states that are split by exchange interaction with Co. The temperature-dependent measurements reveal strong changes of the 4f intensity at the Fermi level in accordance with the Kondo scenario. Our findings show how rich and diverse the f-driven properties can be at the surface of materials without f-physics in the bulk.

AB - The f-driven temperature scales at the surfaces of strongly correlated materials have increasingly come into the focus of research efforts. Here, we unveil the emergence of a two-dimensional Ce Kondo lattice, which couples ferromagnetically to the ordered Co lattice below the P-terminated surface of the antiferromagnet CeCo2P2. In its bulk, Ce is passive and behaves tetravalently. However, because of symmetry breaking and an effective magnetic field caused by an uncompensated ferromagnetic Co layer, the Ce 4f states become partially occupied and spin-polarized near the surface. The momentum-resolved photoemission measurements indicate a strong admixture of the Ce 4f states to the itinerant bands near the Fermi level including surface states that are split by exchange interaction with Co. The temperature-dependent measurements reveal strong changes of the 4f intensity at the Fermi level in accordance with the Kondo scenario. Our findings show how rich and diverse the f-driven properties can be at the surface of materials without f-physics in the bulk.

KW - angle-resolved photoemission spectroscopy

KW - antiferromagnetic order

KW - CeCoP

KW - heavy fermion

KW - two-dimensional ferromagnetism

KW - two-dimensional Kondo lattice

UR - https://www.scopus.com/pages/publications/85125332693

U2 - 10.1021/acsnano.1c10705

DO - 10.1021/acsnano.1c10705

M3 - Article

C2 - 35156797

AN - SCOPUS:85125332693

SN - 1936-0851

VL - 16

SP - 3573

EP - 3581

JO - ACS Nano

JF - ACS Nano

IS - 3

ER -