Confinement-induced unatomic trimer states in mass-imbalanced systems
Abstract
As resonantly interacting trimers of the type AAB are progressively squeezed from D=3 to D=2, unatomic states emerge. We calculated the contacts from the high momentum tail of the single particle densities. The sharp increase of the contacts serves as a signature of the transition between the Efimov and unatomic regimes, characterized by the emergence of continuous scale invariance when the system reaches a critical dimension, Dc. This continuous scale invariance starts to dominate the behavior of the system at the dimension D<Dc, below which the trimers momentum distribution tails exhibit a power-law behavior signaling the unatomic regime. To illustrate our findings, we studied compounds of the forms 7Li-23Na2, 7Li-87Rb2 and 7Li-133Cs2. The increase in the mass-imbalance of the trimers reduces the interval between Dc and D. The emergence of unatomic states can be experimentally verified by observing the two-body contact parameter, which is a quantity directly related to the thermodynamic properties of the gas.
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