Nematic Fermi Fluids in Condensed Matter Physics

Correlated electron fluids can exhibit a startling array of complex phases, among which one of the more surprising is the electron nematic, a translationally invariant metallic phase with a spontaneously generated spatial anisotropy. Classical nematics generally occur in liquids of rod-like molecules; given that electrons are point-like, the initial theoretical motivation for contemplating electron nematics came from thinking of the electron fluid as a quantum melted electron crystal, rather than a strongly interacting descendent of a Fermi gas. That such phases exist in nature was established by dramatic transport experiments in ultra-clean quantum Hall systems in 1999 and in Sr3Ru2O7 in a strong magnetic field in 2007. In this paper, we briefly review the theoretical considerations governing nematic order, summarize the quantum Hall and Sr3Ru2O7 experiments that unambiguously establish the existence of this phase, and survey some of the current evidence for such a phase in the cuprate and Fe-based high temperature superconductors.Comment: 30 pages, 7 figures (some in color); to appear in Annual Reviews of Condensed Matter Physics. Edited version

Effect of Applied Orthorhombic Lattice Distortion on the Antiferromagnetic Phase of CeAuSb2_2

We study the response of the antiferromagnetism of CeAuSb$_2$ to orthorhombic lattice distortion applied through in-plane uniaxial pressure. The response to pressure applied along a $\langle 110 \rangle$ lattice direction shows a first-order transition at zero pressure, which shows that the magnetic order lifts the $(110)/(1\bar{1}0)$ symmetry of the unstressed lattice. Sufficient $\langle 100 \rangle$ pressure appears to rotate the principal axes of the order from $\langle 110 \rangle$ to $\langle 100 \rangle$. At low $\langle 100 \rangle$ pressure, the transition at $T_N$ is weakly first-order, however it becomes continuous above a threshold $\langle 100 \rangle$ pressure. We discuss the possibility that this behavior is driven by order parameter fluctuations, with the restoration of a continuous transition a result of reducing the point-group symmetry of the lattice.Comment: 6 pages, 7 figure

A perspective on non-local electronic transport in metals : viscous, ballistic, and beyond

Funding: Open access funding enabled and organized by Projekt DEAL.Ohm's law for electrical conduction in metals is one of the first concepts taught in any physics curriculum. It is perfectly adequate in almost all practical circumstances, but breaks down in some special, interesting cases. To observe such breakdowns, one requires extremely pure materials, which are rare and often difficult to produce. Excitingly, forefront materials research is leading to the discovery of more and more examples in which one can break the ‘purity barrier’ and explore non-Ohmic transport. The rapid development of the field is seeing equally rapid developments in the understanding of exotic non-Ohmic regimes, but this is not always a smooth progression. New layers of insight often involve reversing what have previously been regarded as established facts. Indeed, the interpretations given of experimental data in many papers published less than a decade ago would (or should!) be different today. The goal of this article is to give an entry-level guide to some of the pertinent issues that have emerged from this intense decade of research, attempting to keep the style of the presentation as informal and non-mathematical as is practical. Although source literature will be cited, no attempt will be made at comprehensive citation, so the paper should not be regarded as a review. Rather, an effort will be made to identify and explain some issues that the authors believe are important but not sufficiently emphasized in the literature to date. In that sense the paper should be regarded as a kind of opinion piece, with, hopefully, some didactic value to a reader with a solid grounding in traditional condensed matter physics.Peer reviewe

Piezoelectric-based apparatus for strain tuning

We report the design and construction of piezoelectric-based apparatus for applying continuously tuneable compressive and tensile strains to test samples. It can be used across a wide temperature range, including cryogenic temperatures. The achievable strain is large, so far up to 0.23% at cryogenic temperatures. The apparatus is compact and compatible with a wide variety of experimental probes. In addition, we present a method for mounting high-aspect-ratio samples in order to achieve high strain homogeneity.Comment: 8 pages, 8 figure

Black Lives, White Kids: White Parenting Practices Following Black-Led Protests

Summer 2020 saw widespread protests under the banner Black Lives Matter. Coupled with the global pandemic that kept America’s children in the predominant care of their parents, we argue that the latter half of 2020 offers a unique moment to consider whites’ race-focused parenting practices. We use Google Trends data and posts on public parenting Facebook pages to show that the remarkable levels of protest activity in summer 2020 served as a focusing event that not only directed Americans’ attention to racial concepts but connected those concepts to parenting. Using a national survey of non-Hispanic white parents with white school-age children, we show that most white parents spoke with their children about race during this period and nearly three-quarters took actions to increase racial diversity in their children’s environment or introduce them to racial politics. But the data also show parenting practices to be rife with uncertainty and deep partisan, gender, and socioeconomic divisions. Drawing upon our findings, we call for a renewed focus on political socialization that considers how parenting choices are shaped by political events—including Black Lives Matter—and the possible long-term consequences of racial parenting practices on politics

Even odder after twenty-three years : the superconducting order parameter puzzle of Sr2RuO4

Funding: Max Planck Society.In this short review, we aim to provide a topical update on the status of efforts to understand the superconductivity of Sr2RuO4. We concentrate on the quest to identify a superconducting order parameter symmetry that is compatible with all the major pieces of experimental knowledge of the material, and highlight some major discrepancies that have become even clearer in recent years. As the pun in the title suggests, we have tried to start the discussion from scratch, making no assumptions even about fundamental issues such as the parity of the superconducting state. We conclude that no consensus is currently achievable in Sr2RuO4, and that the reasons for this go to the heart of how well some of the key probes of unconventional superconductivity are really understood. This is therefore a puzzle that merits continued in-depth study.Publisher PDFPeer reviewe

Effect of uniaxial stress on the magnetic phases of CeAuSb2_2

We present results of measurements of resistivity of \CAS{} under the combination of $c$-axis magnetic field and in-plane uniaxial stress. In unstressed \CAS{} there are two magnetic phases. The low-field A phase is a single-component spin-density wave (SDW), with $\mathbf{q} = (\eta, \pm \eta, 1/2)$, and the high-field B phase consists of microscopically coexisting $(\eta, \eta, 1/2)$ and $(\eta, -\eta, 1/2)$ spin-density waves. Pressure along a $\langle 100 \rangle$ lattice direction is a transverse field to both of these phases, and so initially has little effect, however eventually induces new low- and high-field phases in which the principal axes of the SDW components appear to have rotated to the $\langle 100 \rangle$ directions. Under this strong $\langle 100 \rangle$ compression, the field evolution of the resistivity is much smoother than at zero strain: In zero strain, there is a strong first-order transition, while under strong $\langle 100 \rangle$ it becomes much broader. We hypothesize that this is a consequence of the uniaxial stress lifting the degeneracy between the (100) and (010) directions.Comment: 8 pages, 7 figure