by Cosetta Baroni, Giacomo Gori, Maria Luisa Chiofalo, Andrea Trombettoni
Abstract:
Ultracold gases provide an excellent platform for the realization of quantum interferometers. In the case of implementations based on Bose-Einstein condensates in double well potentials, an effective two-mode model allows to study how the interactions among particles affect the sensitivity of the interferometer. In this work we review the properties of such a model and its application to interferometric protocols, focusing on the achievable sensitivity in the presence of interactions turned on. In particular we study the full interferometric sequence when the initial state is a Twin Fock state, which is perfectly number squeezed. We found that in the presence of interactions and for certain values of the holding time in which a phase difference between the two modes is accumulated, the same sensitivity as in the non interacting case is recovered when using the population imbalance between the two wells as observable. Finally, we characterize the behaviour of the sensitivity by looking at the δ-derivative and the variance of the operator used for the measurement and studying the squeezing parameters.
Reference:
Interacting two-mode model for ultracold quantum interferometers,
Cosetta Baroni, Giacomo Gori, Maria Luisa Chiofalo, Andrea Trombettoni,
Journal of Physics: Conference Series, 2667, 012030, 2023.
Cosetta Baroni, Giacomo Gori, Maria Luisa Chiofalo, Andrea Trombettoni,
Journal of Physics: Conference Series, 2667, 012030, 2023.
Bibtex Entry:
@article{Baroni_2023,
doi = {10.1088/1742-6596/2667/1/012030},
url = {https://doi.org/10.1088/1742-6596/2667/1/012030},
year = {2023},
month = {dec},
publisher = {IOP Publishing},
volume = {2667},
number = {1},
pages = {012030},
author = {Baroni, Cosetta and Gori, Giacomo and Chiofalo, Maria Luisa and Trombettoni, Andrea},
title = {Interacting two-mode model for ultracold quantum interferometers},
journal = {Journal of Physics: Conference Series},
abstract = {Ultracold gases provide an excellent platform for the realization of quantum interferometers. In the case of implementations based on Bose-Einstein condensates in double well potentials, an effective two-mode model allows to study how the interactions among particles affect the sensitivity of the interferometer. In this work we review the properties of such a model and its application to interferometric protocols, focusing on the achievable sensitivity in the presence of interactions turned on. In particular we study the full interferometric sequence when the initial state is a Twin Fock state, which is perfectly number squeezed. We found that in the presence of interactions and for certain values of the holding time in which a phase difference between the two modes is accumulated, the same sensitivity as in the non interacting case is recovered when using the population imbalance between the two wells as observable. Finally, we characterize the behaviour of the sensitivity by looking at the δ-derivative and the variance of the operator used for the measurement and studying the squeezing parameters.}
}