Litcius/Paper detail

Many-body dynamics with explicitly time-dependent neural quantum states

Anka Van de Walle, Markus Schmitt, Annabelle Bohrdt

2025Machine Learning Science and Technology8 citationsDOIOpen Access PDF

Abstract

Abstract Simulating the dynamics of many-body quantum systems is a significant challenge, especially in higher dimensions where entanglement grows rapidly. Neural quantum states (NQS) offer a promising tool for representing quantum wavefunctions, but their application to time evolution faces scaling challenges. We introduce the time-dependent neural quantum state (t-NQS), a novel approach incorporating explicit time dependence into the neural network ansatz. This framework optimizes a single, time-independent set of parameters to solve the time-dependent Schrödinger equation across an entire time interval. We detail an autoregressive, attention-based transformer architecture and techniques for extending the model’s applicability. To benchmark and demonstrate our method, we simulate quench dynamics in the 2D transverse field Ising model and the time-dependent preparation of the 2D antiferromagnetic state in a Heisenberg model, demonstrating state of the art performance, scalability, and extrapolation to unseen intervals. These results establish t-NQS as a powerful framework for exploring quantum dynamics in strongly correlated systems.

Topics & Concepts

QuantumStatistical physicsQuantum entanglementIsing modelScalingExtrapolationPhysicsQuantum dynamicsArtificial neural networkQuantum stateQuantum systemQuantum computerComputer scienceQuantum algorithmQuantum discordA priori and a posterioriQuantum mechanicsHeisenberg modelBenchmark (surveying)Set (abstract data type)Dynamics (music)Quantum gateOpen quantum systemQuantum processQuantum networkQuantum operationTime evolutionState (computer science)Field (mathematics)Quantum annealingQuantum fluctuationQuantum Mechanics and ApplicationsCold Atom Physics and Bose-Einstein CondensatesQuantum many-body systems
Many-body dynamics with explicitly time-dependent neural quantum states | Litcius