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Starting from Bohm’s point of view on Quantum Mechanics, adopting the Bohm potential description, a Quantum Kinetic Equation can be derived. When molecular interactions are described as a self-consistent field, a Quantum Vlasov Equation (QVE) can be written. With this QVE, the evolution of a small perturbation can be described, yielding a wave propagation with or without a damping coefficient, depending on conditions. With this approach applied to a liquid of either fermions or bosons, the propagation of waves in quantum liquids is described.

Molinari, V., Mostacci, D.* (2018). Wave propagation and landau-type damping in quantum liquids. RADIATION EFFECTS AND DEFECTS IN SOLIDS, 173(1-2), 22-30 [10.1080/10420150.2018.1442457].

Wave propagation and landau-type damping in quantum liquids

Mostacci, D.
2018

Abstract

Starting from Bohm’s point of view on Quantum Mechanics, adopting the Bohm potential description, a Quantum Kinetic Equation can be derived. When molecular interactions are described as a self-consistent field, a Quantum Vlasov Equation (QVE) can be written. With this QVE, the evolution of a small perturbation can be described, yielding a wave propagation with or without a damping coefficient, depending on conditions. With this approach applied to a liquid of either fermions or bosons, the propagation of waves in quantum liquids is described.
2018
Molinari, V., Mostacci, D.* (2018). Wave propagation and landau-type damping in quantum liquids. RADIATION EFFECTS AND DEFECTS IN SOLIDS, 173(1-2), 22-30 [10.1080/10420150.2018.1442457].
Molinari, V.; Mostacci, D.*
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/634412
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