Entanglement Witness for Indistinguishable Electrons using Solid-State Spectroscopy
Abstract
Characterizing entanglement in quantum materials is crucial for advancing next-generation quantum technologies. Despite recent strides in witnessing entanglement in magnetic materials with distinguishable spin modes, quantifying entanglement in systems formed by indistinguishable electrons remains a formidable challenge. To solve this problem, we introduce a method to extract various four-fermion correlations by analyzing the nonlinearity in resonant inelastic x-ray scattering spectra. These correlations constitute the primary components of the cumulant two-particle reduced density matrix. We further derive bounds for its eigenvalues and demonstrate the linear scaling with fermionic entanglement depth, providing a reliable witness for entanglement. Using the material-relevant strongly correlated models as examples, we show how this entanglement witness can efficiently quantify multipartite entanglement across different phase regions, highlighting its advantage over quantum Fisher information.
Cite
@article{arxiv.2408.04876,
title = {Entanglement Witness for Indistinguishable Electrons using Solid-State Spectroscopy},
author = {Tongtong Liu and Luogen Xu and Jiarui Liu and Yao Wang},
journal= {arXiv preprint arXiv:2408.04876},
year = {2025}
}
Comments
28 pages, 15 figures