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Pré-Publication, Document De Travail Année : 2024

Transformer neural networks and quantum simulators: a hybrid approach for simulating strongly correlated systems

Résumé

Owing to their great expressivity and versatility, neural networks have gained attention for simulating large two-dimensional quantum many-body systems. However, their expressivity comes with the cost of a challenging optimization due to the in general rugged and complicated loss landscape. Here, we present a hybrid optimization scheme for neural quantum states (NQS) that involves a data-driven pretraining with numerical or experimental data and a second, Hamiltonian-driven optimization stage. By using both projective measurements from the computational basis as well as expectation values from other measurement configurations such as spin-spin correlations, our pretraining gives access to the sign structure of the state, yielding improved and faster convergence that is robust w.r.t. experimental imperfections and limited datasets. We apply the hybrid scheme to the ground state search for the 2D transverse field Ising model and the 2D dipolar XY model on $6\times 6$ and $10\times 10$ square lattices with a patched transformer wave function, using numerical and experimental data from a programmable Rydberg quantum simulator [Chen et al., Nature 616 (2023)], with snapshots of the quantum system obtained from the different measurement configurations, and show that the information from the second basis highly improves the performance. Our work paves the way for a reliable and efficient optimization of neural quantum states.

Dates et versions

hal-04617015 , version 1 (19-06-2024)

Identifiants

Citer

Hannah Lange, Guillaume Bornet, Gabriel Emperauger, Cheng Chen, Thierry Lahaye, et al.. Transformer neural networks and quantum simulators: a hybrid approach for simulating strongly correlated systems. 2024. ⟨hal-04617015⟩
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