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Conductive Surface States and Kondo Exhaustion in Insulating YbIr3Si7

Published

Author(s)

Macy Stavinoha, C.-L. Huang, W. Phelan, Alannah Hallas, V. Loganathan, M. Michiardi, J. Falke, Sergey Zhdanovich, D. Takegami, C.-E. Liu, K. Tsuei, C. Chen, Long Qian, Nicholas Ng, Jeffrey Lynn, Qingzhen Huang, Franziska Weickert, Vivien Zapf, Katharine Larsen, Patricia Sparks, James Eckert, Anand Puthirath, Hsiang-Hsi Kung, Tor Pedersen, Sergey Gorovikov, A. Damascelli, L. Tjeng, C. Hooley, Andriy Nevidomskyy, E. Morosan

Abstract

The interplay of Kondo screening and magnetic ordering in strongly correlated materials containing local moments is a subtle problem. Usually the number of conduction electrons per unit cell matches or exceeds the number of moments, and a Kondo-screened heavy Fermi liquid develops at low temperatures. Changing the pressure, magnetic field, or chemical doping can displace this heavy Fermi liquid in favor of a magnetically ordered state. Alternatively, Kondo singlet formation can be suppressed when the number of conduction electrons is small compared to the number of magnetic moments, known as the Kondo exhaustion scenario. Here we report the discovery of such an "exhausted" Kondo lattice material, YbIr3Si7, where the bulk electrical conductivity tends to zero in the antiferromagnetic state below the Néel temperature TN = 4.1 K, as all the free carriers are consumed in the formation of Kondo singlets. By contrast, the surface is conducting, as the Yb3+ ions relax into larger nonmagnetic Yb2+ in the presence of reduced chemical pressure, which shifts the chemical potential.
Citation
Physical Review B
Volume
109
Issue
3

Citation

Stavinoha, M. , Huang, C. , Phelan, W. , Hallas, A. , Loganathan, V. , Michiardi, M. , Falke, J. , Zhdanovich, S. , Takegami, D. , Liu, C. , Tsuei, K. , Chen, C. , Qian, L. , Ng, N. , Lynn, J. , Huang, Q. , Weickert, F. , Zapf, V. , Larsen, K. , Sparks, P. , Eckert, J. , Puthirath, A. , Kung, H. , Pedersen, T. , Gorovikov, S. , Damascelli, A. , Tjeng, L. , Hooley, C. , Nevidomskyy, A. and Morosan, E. (2024), Conductive Surface States and Kondo Exhaustion in Insulating YbIr3Si7, Physical Review B, [online], https://doi.org/10.1103/PhysRevB.109.035112, https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=959217 (Accessed December 13, 2024)

Issues

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Created January 7, 2024, Updated November 29, 2024