Combining moment matrices, symmetric extension, and Lovász theta: $Φ_{\text{E8}}$ is entangled
Abstract
We solve an open problem in entanglement theory posed by Yu et al., {\it Nature Communications 12, 1012 (2021)}. The problem is to show, via an entanglement witness, that the $14$-qubit state $Φ_{\text{E8}}$ is entangled. Inspired by a method from quantum codes, we combine symmetric extension with moment matrices to prove that $Φ_{\text{E8}}$ is entangled. The proof has the form of a rational infeasibility certificate for a semidefinite program, yielding an explicit entanglement witness. Our app...
Description / Details
We solve an open problem in entanglement theory posed by Yu et al., {\it Nature Communications 12, 1012 (2021)}. The problem is to show, via an entanglement witness, that the -qubit state is entangled. Inspired by a method from quantum codes, we combine symmetric extension with moment matrices to prove that is entangled. The proof has the form of a rational infeasibility certificate for a semidefinite program, yielding an explicit entanglement witness. Our approach unifies and extends several earlier methods that involve the Lovász theta number of the Pauli anti-commutativity graph, promising scalability and flexibility in further applications.
Source: arXiv:2605.13832v1 - http://arxiv.org/abs/2605.13832v1 PDF: https://arxiv.org/pdf/2605.13832v1 Original Link: http://arxiv.org/abs/2605.13832v1
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May 14, 2026
Quantum Computing
Quantum Physics
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