A linear array of 11 double-loop microtraps for ultracold atoms

A linear array of 11 closely spaced microtraps was demonstrated. Each microtrap was created using the magnetic field generated by two concentric circular wire loops having radii of 60 and 132 m carrying oppositely oriented currents as well as a bias magnetic field oriented perpendicular to the atom...

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Bibliographic Details
Published in:Journal of physics. B, Atomic, molecular, and optical physics Atomic, molecular, and optical physics, 2014-11, Vol.47 (21), p.215301-5
Main Authors: Jian, B, van Wijngaarden, W A
Format: Article
Language:English
Subjects:
Atom, molecule and ion trapping and colling methods
Atomic and molecular physics
Atomic properties and interactions with photons
Bias
Circularity
Dipoles
Exact sciences and technology
Forts
Laser arrays
laser cooling and trapping
Linear arrays
Magnetic fields
magnetic microtrap array
Mechanical control of atoms, molecules and ions
Optical cooling of atoms
trapping
Photon interactions with atoms
Physics
ultracold atoms
Wire
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Summary:A linear array of 11 closely spaced microtraps was demonstrated. Each microtrap was created using the magnetic field generated by two concentric circular wire loops having radii of 60 and 132 m carrying oppositely oriented currents as well as a bias magnetic field oriented perpendicular to the atom chip surface containing the microwire loops. 87Rb atoms were initially cooled using either a surface magneto-optical trap (MOT) or a far off resonance optical dipole trap (FORT) created using an infrared laser directed along the microtrap array axis. The microtrap current was turned on and over 12 000 atoms were loaded into each microtrap. The advantage of FORT loading was that the 11 microtraps were about equally populated and the microtrapped atom temperature of 11 K was one quarter of that obtained using the MOT.
ISSN:0953-4075
1361-6455
DOI:10.1088/0953-4075/47/21/215301