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Mathematical Physics
Title: Derivation of renormalized Hartree-Fock-Bogoliubov and quantum Boltzmann equations in an interacting Bose gas
(Submitted on 11 Jan 2024 (v1), last revised 8 Apr 2024 (this version, v2))
Abstract: Our previous work [37] presented a rigorous derivation of quantum Boltzmann equations near a Bose-Einstein condensate (BEC). Here, we extend it with a complete characterization of the leading order fluctuation dynamics. For this purpose, we correct the latter via an appropriate Bogoliubov rotation, in partial analogy to the approach by Grillakis-Machedon et al. [59], in addition to the Weyl transformation applied in [37]. Based on the analysis of the third order expansion of the BEC wave function, and the second order expansions of the pair-correlations, we show that through a renormalization strategy, various contributions to the effective Hamiltonian can be iteratively eliminated by an appropriate choice of the Weyl and Bogoliubov transformations. This leads to a separation of renormalized Hartree-Fock-Bogoliubov (HFB) equations and quantum Boltzmann equations. A multitude of terms that were included in the error term in [37] are now identified as contributions to the HFB renormalization terms. Thereby, the error bound in the work at hand is improved significantly. To the given order, it is now sharp, and matches the order or magnitude expected from scaling considerations. Consequently, we extend the time of validity to $t\sim (\log N)^2$ compared to $t\sim (\log N/\log \log N)^2$ before. We expect our approach to be extensible to smaller orders in $\frac1N$.
Submission history
From: Michael Hott [view email][v1] Thu, 11 Jan 2024 23:52:52 GMT (91kb)
[v2] Mon, 8 Apr 2024 23:20:15 GMT (92kb)
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