Improved delta-kick cooling with multiple non-ideal kicks
Abstract
Delta-kick cooling is a technique employed to achieve low kinetic temperatures by decreasing momentum width at the cost of increased position width. In an ideal implementation, this method uses a harmonic potential to deliver a single near-instantaneous momentum kick. In practice, potentials that are approximately harmonic near their center are commonly used. As a result, the breakdown of the harmonic approximation far from the center limits the cooling performance. Inspired by aberration cancellation in optics, we propose to use compound matter-wave lens systems for kick cooling with Gaussian potentials. By strategically combining attractive and repulsive kicks, we show that it is possible to mimic the effect of a harmonic potential. For a test case with reasonable experimental parameters, our method suggests a reduction in kinetic temperature by a factor of using a 2-pulse sequence and by a factor of using a 3-pulse sequence.
Keywords
Cite
@article{arxiv.2505.08413,
title = {Improved delta-kick cooling with multiple non-ideal kicks},
author = {Harshil Neeraj and David C. Spierings and Joseph McGowan and Nicholas Mantella and Aephraim M. Steinberg},
journal= {arXiv preprint arXiv:2505.08413},
year = {2025}
}