2009
DOI: 10.1134/s0021364009130104
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Energy scales and the non-Fermi liquid behavior in YbRh2Si2

Abstract: Multiple energy scales are detected in measurements of the thermodynamic and transport properties in heavy fermion metals. We demonstrate that the experimental data on the energy scales can be well described by the scaling behavior of the effective mass at the fermion condensation quantum phase transition, and show that the dependence of the effective mass on temperature and applied magnetic fields gives rise to the non-Fermi liquid behavior. Our analysis is placed in the context of recent salient experimental… Show more

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Cited by 10 publications
(13 citation statements)
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“…1 is of generic character, we remember that in the vicinity of QCP it is helpful to use ''internal'' scales to measure the effective mass M * ∝ C /T and temperature T [38,39]. As seen from Fig.…”
Section: Quantum Phase Transitions and The Non-fermi Liquid Behavior mentioning
confidence: 99%
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“…1 is of generic character, we remember that in the vicinity of QCP it is helpful to use ''internal'' scales to measure the effective mass M * ∝ C /T and temperature T [38,39]. As seen from Fig.…”
Section: Quantum Phase Transitions and The Non-fermi Liquid Behavior mentioning
confidence: 99%
“…We study the universal behavior of high-T c superconductors, HF metals, and 2D Fermi systems at low temperatures using the model of a homogeneous HF liquid [38,39]. The model is quite meaningful because we consider the scaling behavior exhibited by these materials at low temperatures, a behavior related to the scaling of quantities such as the effective mass, the heat capacity, the thermal expansion, etc.…”
Section: Limits and Goals Of The Reviewmentioning
confidence: 99%
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“…In order to reveal the universal scaling behavior, and to establish that salient properties of C/T displayed in Fig. 1 possess generic character, we recall that can be helpful to use "internal" scales to measure the effective mass M * ∝ C/T and temperature T [23,24,52,53]. As successively higher magnetic fields are applied to the sample, Fig.…”
Section: Scaling Behavior and Internal Scalesmentioning
confidence: 99%