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Main Authors: Romero-Ros, Alejandro, Sarmiento, Javier Rozalén, Rios, Arnau
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2509.24865
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author Romero-Ros, Alejandro
Sarmiento, Javier Rozalén
Rios, Arnau
author_facet Romero-Ros, Alejandro
Sarmiento, Javier Rozalén
Rios, Arnau
contents We present proof-of-principle time-dependent neural quantum state (NQS) simulations to illustrate the ability of this approach to effectively capture key aspects of quantum dynamics in the continuum. NQS leverage the parameterization of the wave function with neural-network architectures. Here, we put NQS to the test by solving the quantum harmonic oscillator. We obtain the ground state and perform coherent state and breathing mode dynamics. Our results are benchmarked against analytical solutions, showcasing an excellent agreement.
format Preprint
id arxiv_https___arxiv_org_abs_2509_24865
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Quantum Dynamics with Time-Dependent Neural Quantum States
Romero-Ros, Alejandro
Sarmiento, Javier Rozalén
Rios, Arnau
Quantum Physics
Neural and Evolutionary Computing
Nuclear Theory
We present proof-of-principle time-dependent neural quantum state (NQS) simulations to illustrate the ability of this approach to effectively capture key aspects of quantum dynamics in the continuum. NQS leverage the parameterization of the wave function with neural-network architectures. Here, we put NQS to the test by solving the quantum harmonic oscillator. We obtain the ground state and perform coherent state and breathing mode dynamics. Our results are benchmarked against analytical solutions, showcasing an excellent agreement.
title Quantum Dynamics with Time-Dependent Neural Quantum States
topic Quantum Physics
Neural and Evolutionary Computing
Nuclear Theory
url https://arxiv.org/abs/2509.24865