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Paper detail

A Bright Solitonic Matter-Wave Interferometer

We present the first realisation of a solitonic atom interferometer. A Bose-Einstein condensate of $1\times10^4$ atoms of rubidium-85 is loaded into a horizontal optical waveguide. Through the use of a Feshbach resonance, the $s$-wave scattering length of the $^{85}$Rb atoms is tuned to a small negative value. This attractive atomic interaction then balances the inherent matter-wave dispersion, creating a bright solitonic matter wave. A Mach-Zehnder interferometer is constructed by driving Bragg transitions with the use of an optical lattice co-linear with the waveguide. Matter wave propagation and interferometric fringe visibility are compared across a range of $s$-wave scattering values including repulsive, attractive and non-interacting values. The solitonic matter wave is found to significantly increase fringe visibility even compared with a non-interacting cloud.

preprint2014arXivOpen access
Gordon D. McDonaldCarlos C. N. KuhnKyle S. HardmanShayne BennettsPatrick J. EverittPaul A. AltinJohn E. DebsJohn D. CloseNicholas P. Robins
nlin.PScond-mat.quant-gasquant-ph
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Gordon D. McDonaldCarlos C. N. KuhnKyle S. HardmanShayne BennettsPatrick J. EverittPaul A. AltinJohn E. DebsJohn D. CloseNicholas P. Robins

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