Impurity and soliton dynamics in a Fermi gas with nearest-neighbor interactions

A. M. Visuri; P. Törmä; T. Giamarchi

doi:10.1103/PhysRevA.95.063605

Impurity and soliton dynamics in a Fermi gas with nearest-neighbor interactions

A. M. Visuri, P. Törmä, T. Giamarchi^*

^*Corresponding author for this work

University of Geneva

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Abstract

We study spinless fermions with repulsive nearest-neighbor interactions perturbed by an impurity particle or a local potential quench. Using the numerical time-evolving block decimation method and a simplified analytic model, we show that the perturbations create a soliton-antisoliton pair. If solitons are already present in the bath, the two excitations have a drastically different dynamics: The antisoliton does not annihilate with the solitons and is therefore confined close to its origin while the soliton excitation propagates. We discuss the consequences for experiments with ultracold gases.

Original language	English
Article number	063605
Pages (from-to)	1-12
Journal	Physical Review A
Volume	95
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevA.95.063605
Publication status	Published - 7 Jun 2017
MoE publication type	A1 Journal article-refereed

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abstract = "We study spinless fermions with repulsive nearest-neighbor interactions perturbed by an impurity particle or a local potential quench. Using the numerical time-evolving block decimation method and a simplified analytic model, we show that the perturbations create a soliton-antisoliton pair. If solitons are already present in the bath, the two excitations have a drastically different dynamics: The antisoliton does not annihilate with the solitons and is therefore confined close to its origin while the soliton excitation propagates. We discuss the consequences for experiments with ultracold gases.",

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Y1 - 2017/6/7

N2 - We study spinless fermions with repulsive nearest-neighbor interactions perturbed by an impurity particle or a local potential quench. Using the numerical time-evolving block decimation method and a simplified analytic model, we show that the perturbations create a soliton-antisoliton pair. If solitons are already present in the bath, the two excitations have a drastically different dynamics: The antisoliton does not annihilate with the solitons and is therefore confined close to its origin while the soliton excitation propagates. We discuss the consequences for experiments with ultracold gases.

AB - We study spinless fermions with repulsive nearest-neighbor interactions perturbed by an impurity particle or a local potential quench. Using the numerical time-evolving block decimation method and a simplified analytic model, we show that the perturbations create a soliton-antisoliton pair. If solitons are already present in the bath, the two excitations have a drastically different dynamics: The antisoliton does not annihilate with the solitons and is therefore confined close to its origin while the soliton excitation propagates. We discuss the consequences for experiments with ultracold gases.

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Impurity and soliton dynamics in a Fermi gas with nearest-neighbor interactions

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Impurity and soliton dynamics in a Fermi gas with nearest-neighbor interactions

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