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Main Author: Ciou, Yi-Sian
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2501.01343
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author Ciou, Yi-Sian
author_facet Ciou, Yi-Sian
contents Given the discrepancies between the framework of the hydrodynamic Schrödinger equation (HSE) and classical fluid dynamics, we propose a reformed framework, termed the reformed hydrodynamic Schrödinger equation (RHSE) for clarity. The RHSE for barotropic potential flow is developed; notably, we demonstrate an alternative approach to eliminate the pseudo-quantum potential without resorting to the classical limit. We call this approach the ''correction method.'' We then examine the correction method using Noether's theorem, confirming that it enforces the conservation of energy and momentum. Furthermore, we find that the classical limit fails to completely remove redundant terms when a two-component wave function is used to introduce vorticity. This fact suggests that the classical limit is not a universal fallback, highlighting the importance of further investigating the correction method.
format Preprint
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institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The reformed hydrodynamic Schrödinger equation and the effective method for eliminating pseudo-quantum potential: a case study on barotropic potential flow
Ciou, Yi-Sian
Fluid Dynamics
Given the discrepancies between the framework of the hydrodynamic Schrödinger equation (HSE) and classical fluid dynamics, we propose a reformed framework, termed the reformed hydrodynamic Schrödinger equation (RHSE) for clarity. The RHSE for barotropic potential flow is developed; notably, we demonstrate an alternative approach to eliminate the pseudo-quantum potential without resorting to the classical limit. We call this approach the ''correction method.'' We then examine the correction method using Noether's theorem, confirming that it enforces the conservation of energy and momentum. Furthermore, we find that the classical limit fails to completely remove redundant terms when a two-component wave function is used to introduce vorticity. This fact suggests that the classical limit is not a universal fallback, highlighting the importance of further investigating the correction method.
title The reformed hydrodynamic Schrödinger equation and the effective method for eliminating pseudo-quantum potential: a case study on barotropic potential flow
topic Fluid Dynamics
url https://arxiv.org/abs/2501.01343