Insight into the temperature dependent properties of the ferromagnetic Kondo lattice YbNiSn

A. Generalov; D. A. Sokolov; A. Chikina; Yu Kucherenko; V. N. Antonov; L. V. Bekenov; S. Patil; A. D. Huxley; J. W. Allen; K. Matho; K. Kummer; D. V. Vyalikh; C. Laubschat

doi:10.1103/PhysRevB.95.184433

Insight into the temperature dependent properties of the ferromagnetic Kondo lattice YbNiSn

A. Generalov, D. A. Sokolov, A. Chikina, Yu Kucherenko, V. N. Antonov, L. V. Bekenov, S. Patil, A. D. Huxley, J. W. Allen, K. Matho, K. Kummer, D. V. Vyalikh, C. Laubschat

MAX IV Laboratory

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Abstract

Analyzing temperature dependent photoemission (PE) data of the ferromagnetic Kondo-lattice (KL) system YbNiSn in the light of the periodic Anderson model (PAM) we show that the KL behavior is not limited to temperatures below a temperature TK, defined empirically from resistivity and specific heat measurements. As characteristic for weakly hybridized Ce and Yb systems, the PE spectra reveal a 4f-derived Fermi level peak, which reflects contributions from the Kondo resonance and its crystal electric field (CEF) satellites. In YbNiSn this peak has an unusual temperature dependence: With decreasing temperature a steady linear increase of intensity is observed which extends over a large interval ranging from 100 K down to 1 K without showing any peculiarities in the region of TK∼TC=5.6 K. In the light of the single-impurity Anderson model (SIAM) this intensity variation reflects a linear increase of 4f occupancy with decreasing temperature, indicating an onset of Kondo screening at temperatures above 100 K. Within the PAM this phenomenon could be described by a non-Fermi-liquid-like T- linear damping of the self-energy which accounts phenomenologically for the feedback from the closely spaced CEF states.

Original language	English
Article number	184433
Journal	Physical Review B
Volume	95
Issue number	18
DOIs	https://doi.org/10.1103/PhysRevB.95.184433
Publication status	Published - 2017 May 30

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Publisher Copyright:
© 2017 American Physical Society.

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Condensed Matter Physics (including Material Physics, Nano Physics)

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10.1103/PhysRevB.95.184433

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Generalov, A., Sokolov, D. A., Chikina, A., Kucherenko, Y., Antonov, V. N., Bekenov, L. V., Patil, S., Huxley, A. D., Allen, J. W., Matho, K., Kummer, K., Vyalikh, D. V., & Laubschat, C. (2017). Insight into the temperature dependent properties of the ferromagnetic Kondo lattice YbNiSn. Physical Review B, 95(18), Article 184433. https://doi.org/10.1103/PhysRevB.95.184433

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title = "Insight into the temperature dependent properties of the ferromagnetic Kondo lattice YbNiSn",

abstract = "Analyzing temperature dependent photoemission (PE) data of the ferromagnetic Kondo-lattice (KL) system YbNiSn in the light of the periodic Anderson model (PAM) we show that the KL behavior is not limited to temperatures below a temperature TK, defined empirically from resistivity and specific heat measurements. As characteristic for weakly hybridized Ce and Yb systems, the PE spectra reveal a 4f-derived Fermi level peak, which reflects contributions from the Kondo resonance and its crystal electric field (CEF) satellites. In YbNiSn this peak has an unusual temperature dependence: With decreasing temperature a steady linear increase of intensity is observed which extends over a large interval ranging from 100 K down to 1 K without showing any peculiarities in the region of TK∼TC=5.6 K. In the light of the single-impurity Anderson model (SIAM) this intensity variation reflects a linear increase of 4f occupancy with decreasing temperature, indicating an onset of Kondo screening at temperatures above 100 K. Within the PAM this phenomenon could be described by a non-Fermi-liquid-like T- linear damping of the self-energy which accounts phenomenologically for the feedback from the closely spaced CEF states.",

author = "A. Generalov and Sokolov, {D. A.} and A. Chikina and Yu Kucherenko and Antonov, {V. N.} and Bekenov, {L. V.} and S. Patil and Huxley, {A. D.} and Allen, {J. W.} and K. Matho and K. Kummer and Vyalikh, {D. V.} and C. Laubschat",

note = "Publisher Copyright: {\textcopyright} 2017 American Physical Society.",

year = "2017",

month = may,

day = "30",

doi = "10.1103/PhysRevB.95.184433",

language = "English",

volume = "95",

journal = "Physical Review B",

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T1 - Insight into the temperature dependent properties of the ferromagnetic Kondo lattice YbNiSn

AU - Generalov, A.

AU - Sokolov, D. A.

AU - Chikina, A.

AU - Kucherenko, Yu

AU - Antonov, V. N.

AU - Bekenov, L. V.

AU - Patil, S.

AU - Huxley, A. D.

AU - Allen, J. W.

AU - Matho, K.

AU - Kummer, K.

AU - Vyalikh, D. V.

AU - Laubschat, C.

PY - 2017/5/30

Y1 - 2017/5/30

N2 - Analyzing temperature dependent photoemission (PE) data of the ferromagnetic Kondo-lattice (KL) system YbNiSn in the light of the periodic Anderson model (PAM) we show that the KL behavior is not limited to temperatures below a temperature TK, defined empirically from resistivity and specific heat measurements. As characteristic for weakly hybridized Ce and Yb systems, the PE spectra reveal a 4f-derived Fermi level peak, which reflects contributions from the Kondo resonance and its crystal electric field (CEF) satellites. In YbNiSn this peak has an unusual temperature dependence: With decreasing temperature a steady linear increase of intensity is observed which extends over a large interval ranging from 100 K down to 1 K without showing any peculiarities in the region of TK∼TC=5.6 K. In the light of the single-impurity Anderson model (SIAM) this intensity variation reflects a linear increase of 4f occupancy with decreasing temperature, indicating an onset of Kondo screening at temperatures above 100 K. Within the PAM this phenomenon could be described by a non-Fermi-liquid-like T- linear damping of the self-energy which accounts phenomenologically for the feedback from the closely spaced CEF states.

AB - Analyzing temperature dependent photoemission (PE) data of the ferromagnetic Kondo-lattice (KL) system YbNiSn in the light of the periodic Anderson model (PAM) we show that the KL behavior is not limited to temperatures below a temperature TK, defined empirically from resistivity and specific heat measurements. As characteristic for weakly hybridized Ce and Yb systems, the PE spectra reveal a 4f-derived Fermi level peak, which reflects contributions from the Kondo resonance and its crystal electric field (CEF) satellites. In YbNiSn this peak has an unusual temperature dependence: With decreasing temperature a steady linear increase of intensity is observed which extends over a large interval ranging from 100 K down to 1 K without showing any peculiarities in the region of TK∼TC=5.6 K. In the light of the single-impurity Anderson model (SIAM) this intensity variation reflects a linear increase of 4f occupancy with decreasing temperature, indicating an onset of Kondo screening at temperatures above 100 K. Within the PAM this phenomenon could be described by a non-Fermi-liquid-like T- linear damping of the self-energy which accounts phenomenologically for the feedback from the closely spaced CEF states.

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DO - 10.1103/PhysRevB.95.184433

M3 - Article

AN - SCOPUS:85024367261

SN - 2469-9950

VL - 95

JO - Physical Review B

JF - Physical Review B

IS - 18

M1 - 184433

ER -

Insight into the temperature dependent properties of the ferromagnetic Kondo lattice YbNiSn

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