# Anisotropic magnetic-field response of quantum critical fluctuations in   Ni-doped CeCoIn5

**Authors:** M. Yokoyama, K. Suzuki, K. Tenya, S. Nakamura, Y. Kono, S. Kittaka, T., Sakakibara

arXiv: 1902.04717 · 2019-02-19

## TL;DR

This study investigates the anisotropic magnetic-field response of quantum critical fluctuations in Ni-doped CeCoIn5, revealing directional differences in non-Fermi-liquid behavior and linking spin fluctuations to superconducting properties.

## Contribution

It provides new insights into the anisotropic nature of quantum critical fluctuations and their relation to superconductivity in Ni-doped CeCoIn5.

## Key findings

- NFL behavior persists in C/T up to 7 T for B||a
- Magnetization and specific heat show anisotropic crossover behaviors
- c-axis spin component plays a key role in quantum critical fluctuations

## Abstract

This paper demonstrates the anisotropic response of quantum critical fluctuations with respect to the direction of the magnetic field $B$ in Ni-doped CeCoIn$_5$ by measuring the magnetization $M$ and specific heat $C$. The results show that $M/B$ at $B=0.1\ {\rm T}$ for both the tetragonal $c$ and $a$ directions exhibits $T^{-\eta}$ dependencies, and that $C/T$ at $B=0$ follows a $-\ln T$ function, which are the characteristics of non-Fermi-liquid (NFL) behaviors. For $B\,||\,c$, both the $M/B\propto T^{-\eta}$ and $C/T \propto -\ln T$ dependencies change into nearly temperature-constant behaviors by increasing $B$, indicating a crossover from the NFL state to the Fermi-liquid state. For $B\,||\,a$, however, the NFL behavior in $C/T$ persists up to $B=7\ {\rm T}$, whereas $M/B$ exhibits temperature-independent behavior for $B\ge 1\ {\rm T}$. These contrasting characteristics in $M/B$ and $C/T$ reflect the anisotropic nature of quantum critical fluctuations; the $c$-axis spin component significantly contributes to the quantum critical fluctuations. We compare this anisotropic behavior of the spin fluctuations to superconducting properties in pure CeCoIn$_5$, especially to the anisotropy in the upper critical field and the Ising-like characteristics in the spin resonance excitation, and suggest a close relationship between them.

## Full text

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## Figures

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## References

45 references — full list in the complete paper: https://tomesphere.com/paper/1902.04717/full.md

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Source: https://tomesphere.com/paper/1902.04717