Electronic nematicity and its relation to quantum criticality in Sr_3Ru_2O_7 studied by thermal expansion

TL;DR

This study investigates the electronic nematic phase in Sr$_3$Ru$_2$O$_7$ using thermal expansion measurements, revealing phase transition behavior and potential links to quantum criticality.

Contribution

It provides high-resolution thermal expansion data near the nematic phase and explores its relation to quantum criticality in Sr$_3$Ru$_2$O$_7$.

Findings

Second-order phase transition with Ising-like critical behavior.

Broken four-fold rotational symmetry extending beyond the nematic phase.

Universal scaling behavior consistent with a metamagnetic quantum critical point.

Abstract

We report high-resolution measurements of the in-plane thermal expansion anisotropy in the vicinity of the electronic nematic phase in Sr$_3$Ru$_2$O$_7$ down to very low temperatures and in varying magnetic field orientation. For fields applied along the c-direction, a clear second-order phase transition is found at the nematic phase, with critical behavior compatible with the two-dimensional Ising universality class (although this is not fully conclusive). Measurements in a slightly tilted magnetic field reveal a broken four-fold in-plane rotational symmetry, not only within the nematic phase, but extending towards slightly larger fields. We also analyze the universal scaling behavior expected for a metamagnetic quantum critical point, which is realized outside the nematic region. The contours of the magnetostriction suggest a relation between quantum criticality and the nematic phase.