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Ground state phases of the two-dimension electron gas with a unified variational approach

Authors :
Smith, Conor
Chen, Yixiao
Levy, Ryan
Yang, Yubo
Morales, Miguel A.
Zhang, Shiwei
Publication Year :
2024

Abstract

The two-dimensional electron gas (2DEG) is a fundamental model, which is drawing increasing interest because of recent advances in experimental and theoretical studies of 2D materials. Current understanding of the ground state of the 2DEG relies on quantum Monte Carlo calculations, based on variational comparisons of different ansatze for different phases. We use a single variational ansatz, a general backflow-type wave function using a message-passing neural quantum state architecture, for a unified description across the entire density range. The variational optimization consistently leads to lower ground-state energies than previous best results. Transition into a Wigner crystal (WC) phase occurs automatically at rs = 37 +/- 1, a density lower than currently believed. Between the liquid and WC phases, the same ansatz and variational search strongly suggest the existence of intermediate states in a broad range of densities, with enhanced short-range nematic spin correlations.

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2405.19397
Document Type :
Working Paper