Affiliation:
1. Arnold Sommerfeld Center for Theoretical Physics
2. Munich Center for Quantum Science and Technology
Abstract
We initiate the recently proposed ww-ensemble one-particle reduced density matrix functional theory (ww-RDMFT) by deriving the first functional approximations and illustrate how excitation energies can be calculated in practice. For this endeavour, we first study the symmetric Hubbard dimer, constituting the building block of the Hubbard model, for which we execute the Levy-Lieb constrained search. Second, due to the particular suitability of ww-RDMFT for describing Bose-Einstein condensates, we demonstrate three conceptually different approaches for deriving the universal functional in a homogeneous Bose gas for arbitrary pair interaction in the Bogoliubov regime. Remarkably, in both systems the gradient of the functional is found to diverge repulsively at the boundary of the functional’s domain, extending the recently discovered Bose-Einstein condensation force to excited states. Our findings highlight the physical relevance of the generalized exclusion principle for fermionic and bosonic mixed states and the curse of universality in functional theories.
Funder
Deutsche Forschungsgemeinschaft
International Max Planck Research School for Quantum Science and Technology
Munich Center for Quantum Science and Technology
Subject
General Physics and Astronomy
Cited by
5 articles.
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