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Electron Spin Resonance in Strongly Correlated Metals

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Abstract

Modern technique of electron spin resonance (ESR) measurements and data analysis in strongly correlated metals, which allows finding the full set of spectroscopic parameters including oscillating magnetization, relaxation parameter (line width), and hyromagnetic ratio (g-factor), is described. Application of the considered method is illustrated by such examples as metallic systems CeB6, Mn1−xFexSi, GdB6, HoxLu1−xB12, and metallic surface of topological Kondo insulator SmB6. It is shown that ESR in strongly correlated metals provides a unique tool for studying short-range correlations at the nanoscale of a spin polaron type, electron nematic effects, and spin fluctuation transitions. Application of ESR technique opens new opportunities for observation of quantum critical points, including hidden ones. In many cases, it is just ESR, which either indicates the necessity for clarification or deep revision of the prevailing paradigm, or constitutes the basis for a new concept of magnetic properties of various strongly correlated metals.

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Acknowledgements

I would like to thank my colleagues at GPI Dr. Alexey Semeno, Dr. Nickolay Sluchanko, and Prof. Vladimir Glushkov for many years of joint work, shaping my understanding of this area of research. I am very grateful for my co-authors and collaborators Dr. Marat Gilmanov and Dr. Alexandr Samarin, who, under the leadership of Dr. A. Semeno, not only provided a breakthrough development of the methodology, but also performed a number of unique experiments. I am also indebted to Dr. M. Gilmanov for his assistance in the preparation of manuscript figures. I appreciate the tight collaboration with the group of Prof. Hitoshi Ohta at Kobe University. Our joint work on various scientific problems has always led to new results pushing the ESR studies of strongly correlated materials. Professor Kev Salikhov deserves my special and true thanks for valuable discussions, which inspired me to write this work. And finally, I would like to express my appreciation and gratitude to my wife Elena, without whose daily support this review would never have been written. This work was supported by Programme of Russian Academy of Sciences “Photon technologies in probing of inhomogeneous media and biological objects”.

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    S. V. Demishev

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Demishev, S.V. Electron Spin Resonance in Strongly Correlated Metals. Appl Magn Reson 51, 473–522 (2020). https://doi.org/10.1007/s00723-020-01203-3

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