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Bibliographic Details
Main Authors: Schalkers, Merel A., Möller, Matthias
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2404.17618
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author Schalkers, Merel A.
Möller, Matthias
author_facet Schalkers, Merel A.
Möller, Matthias
contents The past years have seen a surge in quantum algorithms for computational fluid dynamics (CFD). These algorithms have in common that whilst promising a speed-up in the performance of the algorithm, no specific method of measurement has been suggested. This means that while the algorithms presented in the literature may be promising methods for creating the quantum state that represents the final flow field, an efficient measurement strategy is not available. This paper marks the first quantum method proposed to efficiently calculate quantities of interest (QoIs) from a state vector representing the flow field. In particular, we propose a method to calculate the force acting on an object immersed in the fluid using a quantum version of the momentum exchange method (MEM) that is commonly used in lattice Boltzmann methods to determine the drag and lift coefficients. In order to achieve this we furthermore give a scheme that implements bounce back boundary conditions on a quantum computer, as those are the boundary conditions the momentum exchange method is designed for.
format Preprint
id arxiv_https___arxiv_org_abs_2404_17618
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Momentum exchange method for quantum Boltzmann methods
Schalkers, Merel A.
Möller, Matthias
Quantum Physics
The past years have seen a surge in quantum algorithms for computational fluid dynamics (CFD). These algorithms have in common that whilst promising a speed-up in the performance of the algorithm, no specific method of measurement has been suggested. This means that while the algorithms presented in the literature may be promising methods for creating the quantum state that represents the final flow field, an efficient measurement strategy is not available. This paper marks the first quantum method proposed to efficiently calculate quantities of interest (QoIs) from a state vector representing the flow field. In particular, we propose a method to calculate the force acting on an object immersed in the fluid using a quantum version of the momentum exchange method (MEM) that is commonly used in lattice Boltzmann methods to determine the drag and lift coefficients. In order to achieve this we furthermore give a scheme that implements bounce back boundary conditions on a quantum computer, as those are the boundary conditions the momentum exchange method is designed for.
title Momentum exchange method for quantum Boltzmann methods
topic Quantum Physics
url https://arxiv.org/abs/2404.17618