Evidence for proximity of YFe$_2$Si$_2$ to a magnetic quantum critical   point

D.J. Singh

arXiv:1604.06768·cond-mat.str-el·June 30, 2016

Evidence for proximity of YFe$_2$Si$_2$ to a magnetic quantum critical point

D.J. Singh

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TL;DR

This study suggests that YFe$_2$Si$_2$ is close to a magnetic quantum critical point, with electronic and magnetic properties indicating proximity to antiferromagnetic order, which may influence its superconducting-like behavior.

Contribution

The paper provides computational evidence that YFe$_2$Si$_2$ is near a magnetic quantum critical point, linking its electronic structure to magnetic fluctuations.

Findings

01

YFe$_2$Si$_2$ shows a magnetic state at the density functional level.

02

Electronic structure is three-dimensional and similar to related superconductors.

03

Properties are strongly influenced by proximity to an antiferromagnetic quantum critical point.

Abstract

Calculations of the electronic and magnetic properties of the non-magnetic metallic compound YFe $_{2}$ Si $_{2}$ are reported. These show that at the density functional level a magnetic state involving ordering along the $c$ -axis. The electronic structure is three dimensional, and is similar to that of the unconventional superconductor YFe $_{2}$ Ge $_{2}$ and as well as that of the high pressure collapsed tetragonal phase of KFe $_{2}$ As $_{2}$ , which is also a superconductor. Based on the results in relation to experiment, we infer that properties of YFe $_{2}$ Si $_{2}$ are strongly influenced by a nearby antiferromagnetic quantum critical point.

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