Journal
PHYSICAL REVIEW D
Volume 106, Issue 7, Pages -Publisher
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevD.106.L071501
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Funding
- ERC
- [QUTE (647905)]
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In this study, we investigate the 2.04 model at criticality in 0 thorn 2 dimensions and focus on the scaling properties originating from UV and IR physics. We demonstrate that the entanglement entropy, correlation length, and order parameters exhibit distinctive double scaling properties that prove to be powerful tools in data analysis.
We study the 2,04 model in 0 thorn 2 dimensions at criticality, focusing on the scaling properties originating from the UV and IR physics. We demonstrate that the entanglement entropy, the correlation length xi and order parameters 0 and 03 exhibit distinctive double scaling properties that prove a powerful tool in the data analysis. The calculations are performed with boundary matrix product state methods on tensor network representations of the partition function to which the entanglement scaling hypothesis is applied, though the technique is equally applicable outside the realm of tensor networks. We find the value ac = 11.09698o31 thorn for the critical point, improving on previous results.
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