Saijun Wu scite author profile

An atom Michelson interferometer is implemented on an "atom chip." The chip uses lithographically patterned conductors and external magnetic fields to produce and guide a Bose-Einstein condensate. Splitting, reflecting, and recombining of condensate atoms are achieved by a standing-wave light field having a wave vector aligned along the atom waveguide. A differential phase shift between the two arms of the interferometer is introduced by either a magnetic-field gradient or with an initial condensate velocity. Interference contrast is still observable at 20% with an atom propagation time of 10 ms.

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Sub-Doppler laser cooling of fermionic ⁴⁰ K atoms in three-dimensional gray optical molasses

Fernandes¹,

Sievers²,

Kretzschmar³

et al. 2012

EPL

105

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Demonstration of an Area-Enclosing Guided-Atom Interferometer for Rotation Sensing

2007

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We demonstrate area-enclosing atom interferometry based on a moving guide. Light pulses along the free propagation direction of a magnetic guide are applied to split and recombine the confined atomic matter-wave, while the atoms are translated back and forth along a second direction in 50 ms. The interferometer is estimated to resolve ten times the earth rotation rate per interferometry cycle. We demonstrate a "folded figure 8" interfering configuration for creating a compact, large-area atom gyroscope with multiple-turn interfering paths.

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Splitting matter waves using an optimized standing-wave light-pulse sequence

Wang

Diot

et al. 2005

Phys. Rev. A

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Abstract:In a recent experiment [1], it was observed that a sequence of two standing wave square pulses can split a BEC at rest into +/-2 k diffraction orders with almost 100% efficiency.By truncating the Raman-Nath equations to a 2-state model, we provide an intuitive picture that explains this double square pulse beamsplitter scheme. We further show it is possible to optimize a standingwave multi square pulse sequence to efficiently diffract an atom at rest to symmetric superposition of +/-2n k diffraction order with n>1. The approach is considered to be qualitatively different from the traditional light pulse schemes in the Bragg or the Raman-Nath region, and can be extended to more complex atomic optical elements that produce various tailored output momentum states from a cold atom source.2

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Saijun Wu

Atom Michelson Interferometer on a Chip Using a Bose-Einstein Condensate

Sub-Doppler laser cooling of fermionic ⁴⁰ K atoms in three-dimensional gray optical molasses

Demonstration of an Area-Enclosing Guided-Atom Interferometer for Rotation Sensing

Splitting matter waves using an optimized standing-wave light-pulse sequence

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About

Saijun Wu

Atom Michelson Interferometer on a Chip Using a Bose-Einstein Condensate

Sub-Doppler laser cooling of fermionic 40 K atoms in three-dimensional gray optical molasses

Demonstration of an Area-Enclosing Guided-Atom Interferometer for Rotation Sensing

Splitting matter waves using an optimized standing-wave light-pulse sequence

Contact Info

Product

Resources

About

Sub-Doppler laser cooling of fermionic ⁴⁰ K atoms in three-dimensional gray optical molasses