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Literature DB >> 14995291

Atom interferometry with Bose-Einstein condensates in a double-well potential.

Y Shin¹, M Saba, T A Pasquini, W Ketterle, D E Pritchard, A E Leanhardt.

Abstract

A trapped-atom interferometer was demonstrated using gaseous Bose-Einstein condensates coherently split by deforming an optical single-well potential into a double-well potential. The relative phase between the two condensates was determined from the spatial phase of the matter wave interference pattern formed upon releasing the condensates from the separated potential wells. Coherent phase evolution was observed for condensates held separated by 13 microm for up to 5 ms and was controlled by applying ac Stark shift potentials to either of the two separated condensates.

Year: 2004 PMID： 14995291 DOI： 10.1103/PhysRevLett.92.050405

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

6 in total

Atom interferometry with Bose-Einstein condensates in a double-well potential.

1. Intrinsic dephasing in one-dimensional ultracold atom interferometers.

2. Fifteen years of cold matter on the atom chip: promise, realizations, and prospects.

3. Robust digital holography for ultracold atom trapping.

4. Controllable vacuum-induced diffraction of matter-wave superradiance using an all-optical dispersive cavity.

5. Vortex conveyor belt for matter-wave coherent splitting and interferometry.

6. Spectral Structure and Many-Body Dynamics of Ultracold Bosons in a Double-Well.