Journal Article FZJ-2025-03458

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Efficient optimization and conceptual barriers in variational finite projected entangled pair states

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2025
Inst. Woodbury, NY

Physical review / B 111(19), 195120 () [10.1103/PhysRevB.111.195120]

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Abstract: Projected entangled pair states (PEPS) on finite two-dimensional lattices are a natural ansatz for representing ground states of local many-body Hamiltonians, as they inherently satisfy the boundary law of entanglement entropy. In this paper, we propose the optimization of PEPS via an improved formulation of the time-dependent variational principle (TDVP), namely the minimum-step stochastic-reconfiguration scheme recently introduced for neural quantum states. We further discuss possible numerical issues that might arise in such a sampling-based approach. In this context, we investigate the entanglement properties of random PEPS and find an entanglement phase transition. We note that on one side of this transition, we can identify positive random tensors as product states. To demonstrate the power of the framework described in this paper, we apply PEPS to study the notoriously challenging chiral spin liquids. Moreover, we exhibit our approach's capability to naturally handle long-range interactions by exploring the phase diagram of Rydberg atom arrays with long-range interactions. We further provide parallelized, easy-to-use code, allowing the straightforward application of our method to general Hamiltonians composed of local interaction terms.

Classification:

Contributing Institute(s):
  1. Quantum Control (PGI-8)
Research Program(s):
  1. 5221 - Advanced Solid-State Qubits and Qubit Systems (POF4-522) (POF4-522)
  2. SPINUS - Spin based quantum computer and simulator (101135699) (101135699)
  3. DFG project G:(GEPRIS)277101999 - TRR 183: Verschränkte Materiezustände (277101999) (277101999)
  4. PASQuanS2.1 - Programmable Atomic Large-scale Quantum Simulation 2 - SGA1 (101113690) (101113690)
  5. BMBF 13N16202 - NiQ - Rauschen in Quantenalgorithmen (BMBF-13N16202) (BMBF-13N16202)

Database coverage:
Medline ; Clarivate Analytics Master Journal List ; Current Contents - Electronics and Telecommunications Collection ; Current Contents - Physical, Chemical and Earth Sciences ; Ebsco Academic Search ; Essential Science Indicators ; IF < 5 ; JCR ; SCOPUS ; Science Citation Index Expanded ; Web of Science Core Collection
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 Record created 2025-08-11, last modified 2026-07-15


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