Litcius/Paper detail

Nematic Metal in a Multivalley Electron Gas: Variational Monte Carlo Analysis and Application to AlAs

Agnes Valenti, Vladimir Calvera, Steven A. Kivelson, Erez Berg, Sebastian D. Huber

2024Physical Review Letters11 citationsDOI

Abstract

The two-dimensional electron gas is of fundamental importance in quantum many-body physics. We study a minimal extension of this model with C_{4} (as opposed to full rotational) symmetry and an electronic dispersion with two valleys with anisotropic effective masses. Electrons in our model interact via Coulomb repulsion, screened by distant metallic gates. Using variational Monte Carlo simulations, we find a broad intermediate range of densities with a metallic valley-polarized, spin-unpolarized ground state. Our results are of direct relevance to the recently discovered "nematic" state in AlAs quantum wells. For the effective mass anisotropy relevant to this system, m_{x}/m_{y}≈5.2, we obtain a transition from an anisotropic metal to a valley-polarized metal at r_{s}≈12 (where r_{s} is the dimensionless Wigner-Seitz radius). At still lower densities, we find a (possibly metastable) valley and spin-polarized state with a reduced electronic anisotropy.

Topics & Concepts

PhysicsDimensionless quantityAnisotropyMetastabilityElectronCondensed matter physicsQuantum Monte CarloVariational Monte CarloGround stateCoulombMonte Carlo methodSpin (aerodynamics)Effective mass (spring–mass system)RADIUSAtomic physicsQuantum mechanicsHubbard modelComputer securityComputer scienceSuperconductivityMathematicsStatisticsThermodynamicsPhysics of Superconductivity and MagnetismQuantum and electron transport phenomenaSuperconductivity in MgB2 and Alloys