Transverse mode imaging of guided matter waves

R. G. Dall; S. S. Hodgman; M. T. Johnsson; K. G.H. Baldwin; A. G. Truscott

doi:10.1103/PhysRevA.81.011602

Transverse mode imaging of guided matter waves

R. G. Dall, S. S. Hodgman, M. T. Johnsson, K. G.H. Baldwin, A. G. Truscott

Research output: Contribution to journal › Article › peer-review

20 Citations (Scopus)

Abstract

Ultracold atoms whose de Broglie wavelength is of the same order as an extended confining potential can experience waveguiding along the potential. When the transverse kinetic energy of the atoms is sufficiently low, they can be guided in the lowest order mode of the confining potential by analogy with light guided by a single mode optical fiber. We have obtained the first images of the transverse mode structure of guided matter waves in a confining potential with up to 65% of atoms in the lowest order mode. The coherence of the guided atomic de Broglie waves is demonstrated by the diffraction pattern produced when incident upon a two dimensional periodic structure. Such coherent waveguides will be important atom optic components in devices with applications such as atom holography and atom interferometry.

Original language	English
Article number	011602
Journal	Physical Review A - Atomic, Molecular, and Optical Physics
Volume	81
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevA.81.011602
Publication status	Published - 7 Jan 2010

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AB - Ultracold atoms whose de Broglie wavelength is of the same order as an extended confining potential can experience waveguiding along the potential. When the transverse kinetic energy of the atoms is sufficiently low, they can be guided in the lowest order mode of the confining potential by analogy with light guided by a single mode optical fiber. We have obtained the first images of the transverse mode structure of guided matter waves in a confining potential with up to 65% of atoms in the lowest order mode. The coherence of the guided atomic de Broglie waves is demonstrated by the diffraction pattern produced when incident upon a two dimensional periodic structure. Such coherent waveguides will be important atom optic components in devices with applications such as atom holography and atom interferometry.

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Transverse mode imaging of guided matter waves

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