Tuning the Fermi liquid crossover in Sr2RuO4 with uniaxial stress

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作者
A. Chronister
M. Zingl
A. Pustogow
Yongkang Luo
D. A. Sokolov
F. Jerzembeck
N. Kikugawa
C. W. Hicks
J. Mravlje
E. D. Bauer
J. D. Thompson
A. P. Mackenzie
A. Georges
S. E. Brown
机构
[1] UCLA,Department of Physics and Astronomy
[2] Center for Computational Quantum Physics,undefined
[3] Flatiron Institute,undefined
[4] Institute of Solid State Physics,undefined
[5] TU Wien,undefined
[6] Max Planck Institute for Chemical Physics of Solids,undefined
[7] National Institute for Materials Science,undefined
[8] Jožef Stefan Institute,undefined
[9] Los Alamos National Laboratory,undefined
[10] SUPA,undefined
[11] School of Physics and Astronomy,undefined
[12] University of St. Andrews,undefined
[13] Collège de France,undefined
[14] Centre de Physique Théorique Ecole Polytechnique,undefined
[15] CNRS,undefined
[16] Université Paris-Saclay,undefined
[17] DQMP,undefined
[18] Université de Genève,undefined
来源
npj Quantum Materials | / 7卷
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摘要
We perform nuclear magnetic resonance (NMR) measurements of the oxygen-17 Knight shifts for Sr2RuO4, while subjected to uniaxial stress applied along [100] direction. The resulting strain is associated with a strong variation of the temperature and magnetic field dependence of the inferred magnetic response. A quasiparticle description based on density-functional theory calculations, supplemented by many-body renormalizations, is found to reproduce our experimental results, and highlights the key role of a van-Hove singularity. The Fermi-liquid coherence scale is shown to be tunable by strain, and driven to low values as the associated Lifshitz transition is approached.
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