Article
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This version is not peer-reviewed
Design and Construction of Magnetic Coils for Quantum Magnetism Experiments
Version 2
: Received: 5 July 2019 / Approved: 8 July 2019 / Online: 8 July 2019 (13:59:50 CEST)
A peer-reviewed article of this Preprint also exists.
Puentes, G. Design and Construction of Magnetic Coils for Quantum Magnetism Experiments. Quantum Reports 2020, 2, 378–387, doi:10.3390/quantum2030026. Puentes, G. Design and Construction of Magnetic Coils for Quantum Magnetism Experiments. Quantum Reports 2020, 2, 378–387, doi:10.3390/quantum2030026.
Abstract
We report on the design and construction of a spin-flip Zeeman slower, quadrupole magnetic trap, and Feshbach fields for a new machine for ultra-cold Li-7. The small mass of the Li-7 atom, and the tight lattice spacing, will enable us to achieve a 100-fold increase in tuneling rates over comparable Rb-87 optical lattice emulator experiments. These improvements should enable to access new regimes in quantum magnetic phase transitions and spin dynamics.
Keywords
Cold atoms, Zeeman slower, quadrupole magnetic trap
Subject
Physical Sciences, Atomic and Molecular Physics
Copyright: This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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