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Three-body bound states of two bosonic impurities immersed in a Fermi sea in 2D

We consider two identical impurities immersed in a Fermi sea for a broad range of masses and for both interacting and non-interacting impurities. The interaction between the particles is described through attractive zero-range potentials and the problem is solved in momentum space. The two impurities can attach to a fermion from the sea and form three-body bound states. The energy of these states increase as function of the Fermi momentum $k_F$, leading to three-body bound states below the Fermi energy. The fate of the states depends highly on two- and three-body thresholds and we find evidence of medium-induced Borromean-like states in 2D. The corrections due to particle-hole fluctuations in the Fermi sea are considered in the three-body calculations and we show that in spite of the fact that they strongly affect both the two- and three-body systems, the correction to the point at which the three-body states cease to exist is small.

preprint2016arXivOpen access
F. F. BellottiT. FredericoM. T. YamashitaD. V. FedorovA. S. JensenN. T. Zinner
cond-mat.str-elcond-mat.quant-gasquant-ph
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F. F. BellottiT. FredericoM. T. YamashitaD. V. FedorovA. S. JensenN. T. Zinner

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