de Broglie Normal Modes in the Madelung Fluid

de Broglie Normal Modes in the Madelung Fluid

In an attempt to explore further the Madelung fluid-like representation of quantum mechanics, we derive the small perturbation equations of the fluid with respect to its basic states. The latter are obtained from the Madelung transform of the Schrödinger equation eigenstates. The fundamental eigenst...

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Veröffentlicht in:Foundations of physics 2023-04, Vol.53 (2), Article 35
Hauptverfasser: Heifetz, Eyal, Guha, Anirban, Maas, Leo
Format: Artikel
Sprache:eng
Schlagworte:
Classical and Quantum Gravitation
Classical Mechanics
Eigenvectors
Group velocity
History and Philosophical Foundations of Physics
Matter waves
Perturbation
Philosophy of Science
Physics
Physics and Astronomy
Quantum mechanics
Quantum Physics
Relativity Theory
Schrodinger equation
Sound propagation
Sound waves
Statistical Physics and Dynamical Systems
Wave propagation
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Zusammenfassung:In an attempt to explore further the Madelung fluid-like representation of quantum mechanics, we derive the small perturbation equations of the fluid with respect to its basic states. The latter are obtained from the Madelung transform of the Schrödinger equation eigenstates. The fundamental eigenstates of de Broglie monochromatic matter waves are then shown to be mapped into the simple basic states of a fluid with constant density and velocity, where the latter is the de Broglie group velocity. The normal modes with respect to these basic states are derived and found to also satisfy the de Broglie dispersion relation. Despite being dispersive waves, their propagation mechanism is equivalent to that of sound waves in a classical ideal adiabatic gas. We discuss the physical interpretation of these results.
ISSN:0015-9018
1572-9516
DOI:10.1007/s10701-023-00676-z