Adrien Bouscal, Anaïs Chochon, M. Kemiche, S. Mahapatra, Nikos Fayard, J. Berroir, Tridib Ray, J. Greffet, F. Raineri, Ariel Levenson, K. Bencheikh, C. Sauvan, A. Urvoy, Julien Laurat
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A Robust Half-W1 Photonic Crystal Waveguide Platform for Interfacing Trapped Cold Atoms with Slow Light
Interfacing cold neutral atoms and photons guided in nanoscale waveguides has raised a large interest over the recent years, with a wealth of emerging opportunities. Arrays of atoms can be trapped in the evanescent field of guided modes and the strong transverse confinement enables to increase the individual atom-photon coupling in single pass. Remarkable experimental advances have been obtained with optical nanofibers [1], but photonic crystals waveguides (PCW) are very promising as they allow for precise dispersion engineering. Despite these promises, trapping atoms in the vicinity of such PCWs is still at its infancy.
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