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Advances in Quantum Defect Embedding Theory

Siyuan Chen, Victor Yu, Yu Jin, Marco Govoni, Giulia Galli

2025Journal of Chemical Theory and Computation10 citationsDOIOpen Access PDF

Abstract

Quantum defect embedding theory (QDET) is a many-body embedding method designed to describe condensed systems with correlated electrons localized within a given region of space, for example spin defects in semiconductors and insulators. Although the QDET approach has been successful in predicting the electronic properties of several point defects, several limitations of the method remain. In this work, we propose multiple advances to the QDET formalism. We derive a double-counting correction that consistently treats the frequency dependence of the screened Coulomb interaction, and we illustrate the effect of including unoccupied orbitals in the active space. In addition, we propose a method to describe hybridization effects between the active space and the environment, and we compare the results of several impurity solvers, providing further insights into improving the reliability and applicability of the method. We present results for defects in diamond and for molecular qubits, including a detailed comparison with experiments.

Topics & Concepts

EmbeddingCoulombQubitFormalism (music)Atomic orbitalComputer sciencePhysicsSemiconductorQuantumStatistical physicsSpace (punctuation)Quantum mechanicsElectronArtificial intelligenceVisual artsArtMusicalOperating systemDiamond and Carbon-based Materials ResearchElectronic and Structural Properties of OxidesSemiconductor materials and devices
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