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Phase diagram of one-, two-, and three-dimensional quantum spin systems derived from entanglement properties
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We study the bipartite entanglement per bond to determine characteristic features of the phase diagram of various quantum spin models in different spatial dimensions. The bipartite entanglement is obtained from a tensor network representation of the ground state wave-function. Three spin-1/2 models (Ising, XY, XXZ, all in a transverse field) are investigated. Imaginary-time evolution (TEBD in 1D, `simple update' in 2D and 3D) is used to determine the ground states of these models. The phase structure of the models is discussed for all three dimensions.
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Ans\"atz Expressivity and Optimization in Variational Quantum Simulations of Transverse-field Ising Model Across System Sizes
VQE with EfficientSU2 and Hamiltonian Variational ansatze approximates TFIM ground states and entanglement in up to 3D lattices of 27 spins, with accuracy tied to ansatz expressivity and optimization success.
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