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Stability of (N+1) -body fermion clusters in a multiband Hubbard model

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Keleş, A.

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We start with a variational approach and derive a set of coupled integral equations for the bound states of N identical spin-? fermions and a single spin-? fermion in a generic multiband Hubbard Hamiltonian with an attractive on-site interaction. As an illustration, we apply our integral equations to the one-dimensional sawtooth lattice up to N?3, i.e., to the (3+1)-body problem, and we reveal not only the presence of tetramer states in this two-band model but also their quasiflat dispersion when formed in a flat band. Furthermore, for N={4,5, »,10}, our density-matrix renormalization-group simulations and exact diagonalization suggest the presence of larger and larger multimers with lower and lower binding energies, conceivably without an upper bound on N. These peculiar (N+1)-body clusters are in sharp contrast with the exact results on the single-band linear-chain model where none of the N?2 multimers appear. Hence their presence must be taken into account for a proper description of the many-body phenomena in flat-band systems, e.g., they may suppress superconductivity especially when there exists a large spin imbalance.

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American Physical Society (APS)

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Optics, Physics

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Physical Review A

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10.1103/PhysRevA.106.033304

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