Litcius/Paper detail

Metal-Insulator Transition in a Semiconductor Heterobilayer Model

Yubo Yang, Miguel A. Morales, Shiwei Zhang

2024Physical Review Letters21 citationsDOI

Abstract

Transition metal dichalcogenide superlattices provide an exciting new platform for exploring and understanding a variety of phases of matter. The moiré continuum Hamiltonian, of two-dimensional jellium in a modulating potential, provides a fundamental model for such systems. Accurate computations with this model are essential for interpreting experimental observations and making predictions for future explorations. In this work, we combine two complementary quantum Monte Carlo (QMC) methods, phaseless auxiliary field quantum Monte Carlo and fixed-phase diffusion Monte Carlo, to study the ground state of this Hamiltonian. We observe a metal-insulator transition between a paramagnet and a 120° Néel ordered state as the moiré potential depth and the interaction strength are varied. We find significant differences from existing results by Hartree-Fock and exact diagonalization studies. In addition, we benchmark density-functional theory, and suggest an optimal hybrid functional which best approximates our QMC results.

Topics & Concepts

Quantum Monte CarloHamiltonian (control theory)PhysicsGround stateStatistical physicsMonte Carlo methodJelliumDiffusion Monte CarloCondensed matter physicsSuperlatticeQuantum phase transitionQuantumPhase transitionQuantum mechanicsHybrid Monte CarloElectronMathematicsMarkov chain Monte CarloStatisticsMathematical optimizationAdvanced Chemical Physics StudiesMachine Learning in Materials ScienceTheoretical and Computational Physics