Multipartite entanglement from ditstrings for 1+1D systems

• URL: http://arxiv.org/abs/2507.14422v1
• Date: Sat, 19 Jul 2025 00:44:28 GMT
• Title: Multipartite entanglement from ditstrings for 1+1D systems
• Authors: Zane Ozzello, Yannick Meurice,
• Abstract summary: We show that multipartite entanglement can be used as an efficient way of identifying the critical points of 1+1D systems.<n>We demonstrate this with the quantum Ising model, lattice $lambda phi4$ approximated with qutrits, and arrays of Rydberg atoms.
• Score: 0.0
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: We show that multipartite entanglement can be used as an efficient way of identifying the critical points of 1+1D systems. We demonstrate this with the quantum Ising model, lattice $\lambda \phi^4$ approximated with qutrits, and arrays of Rydberg atoms. To do so we make use of multipartite compositions of entanglement quantities for different parts combined to form the strong subadditivity, weak monotonicity, and a convex combination of these with conformal properties. These quantities display some remarkable properties. We will demonstrate how the entanglement of individual parts together displays behavior at phase boundaries, but the combination of these in the aforementioned quantities sharpens and localizes this behavior to the boundaries even better. We will show that we can extend a scheme for approximating the entanglement with the mutual information, and that this acts as a lower bound which will also follow the changes in the entanglement for the above quantities, despite the additional contributions of different signs. This mutual information approximation to the identifying quantities can have its lower probabilities removed in a process we call filtering, and despite the combination of terms will respond well to the filtering and offer improvements to the lower bound.

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