Related papers: Entanglement and fermionization of two distinguishable fermions in a strict and non strict one-dimensional space

Entanglement and fermionization of two distinguishable fermions in a strict and non strict one-dimensional space

URL: http://arxiv.org/abs/2108.10389v1
Date: Mon, 23 Aug 2021 20:17:58 GMT
Title: Entanglement and fermionization of two distinguishable fermions in a strict and non strict one-dimensional space
Authors: Eloisa Cuestas (1 and 2), Mart\'in D. Jim\'enez (1 and 2) and Ana P. Majtey (1 and 2) ((1) Universidad Nacional de C\'ordoba, Argentina, (2) Instituto de F\'isica Enrique Gaviola, C\'ordoba, Argentina)
Abstract summary: We present two alternative representations of the ground state that we associate with two different types of one-dimensional spaces. We find that the entanglement of the ground state is strongly conditioned by those one-dimensional space features. In the strongly repulsive regime the ground state changes smoothly from a superposition of Slater-like states to a finite superposition of Slaters.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: The fermionization regime and entanglement correlations of two distinguishable harmonically confined fermions interacting via a zero-range potential is addressed. We present two alternative representations of the ground state that we associate with two different types of one-dimensional spaces. These spaces, in turn, induce different correlations between particles and thus require a suitable definition of entanglement. We find that the entanglement of the ground state is strongly conditioned by those one-dimensional space features. We also find that in the strongly attractive regime the relative ground state is a highly localized state leading to maximum entanglement. Our analysis shows that in the strongly repulsive regime the ground state changes smoothly from a superposition of Slater-like states to a finite superposition of Slaters, this lack of accessible states yields to Pauli blocking as a strong signature of fermionization. Our results indicate that entangled states could be obtained in current experiments by reaching the non-interacting regime from the interacting regime. Entangled states could also be obtained when a state is brought from the interacting regime into the strongly repulsive regime by changing the scattering length near the confinement-induced resonance. Finally, we show that the first excited state obtained in the absence of interactions and the third excited fermionized state are maximally entangled.

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