Dynamics of sound waves in an interacting Bose gas
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2016-04
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© 2016 Elsevier Inc. We consider a non-relativistic quantum gas of N bosonic atoms confined to a box of volume Λ in physical space. The atoms interact with each other through a pair potential whose strength is inversely proportional to the density, ρ=NΛ, of the gas. We study the time evolution of coherent excitations above the ground state of the gas in a regime of large volume Λ and small ratio Λρ. The initial state of the gas is assumed to be close to a product state of one-particle wave functions that are approximately constant throughout the box. The initial one-particle wave function of an excitation is assumed to have a compact support independent of Λ. We derive an effective non-linear equation for the time evolution of the one-particle wave function of an excitation and establish an explicit error bound tracking the accuracy of the effective non-linear dynamics in terms of the ratio Λρ. We conclude with a discussion of the dispersion law of low-energy excitations, recovering Bogolyubov's well-known formula for the speed of sound in the gas, and a dynamical instability for attractive two-body potentials.
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Deckert, DA, J Fröhlich, P Pickl and A Pizzo (2016). Dynamics of sound waves in an interacting Bose gas. Advances in Mathematics, 293. 10.1016/j.aim.2016.02.001 Retrieved from https://hdl.handle.net/10161/17110.
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