arXiv:2005.11662 Abstract | arXiv Analytics

arXiv:2005.11662 [quant-ph]Abstract References Reviews Resources

A hybrid quantum system formed by trapping atoms in the near-field of a levitated nanosphere

Published 2020-05-24Version 1

Near-field, radially symmetric optical potentials centred around a levitated nanosphere can be used for sympathetic cooling and for creating a bound nanosphere-atom system analogous to a large molecule. We demonstrate that the long range, Coulomb-like potential produced by a single blue detuned field increases the collisional cross-section by eight orders of magnitude, allowing fast sympathetic cooling of a trapped nanosphere to microKelvin temperatures using cold atoms. By using two optical fields to create a combination of repulsive and attractive potentials, we demonstrate that a cold atom can be bound to a nanosphere creating a new levitated hybrid quantum system suitable for exploring quantum mechanics with massive particles.

Comments: 6 pages, 5 figures

Categories: quant-ph, physics.atom-ph, physics.optics

Keywords: levitated nanosphere, trapping atoms, hybrid quantum system suitable, near-field, symmetric optical potentials

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