Towards a 20-second coherence time in the eEDM sensitive state of ThF<sup>+</sup>
ORAL
Abstract
Here we present our progress on the JILA Generation III apparatus designed to measure the electron electric dipole moment (eEDM) in ThF+. The eEDM-sensitive ground electronic state in ThF+, immune to decoherence from spontaneous decay, provides an avenue to achieve a coherence time of ≈20 seconds [1,2]. Towards the measurement of the eEDM in ThF+, we review the proposed Gen. III multiplexed architecture and present a prototype apparatus designed to achieve a 20 s coherence time. A 20 s coherence time requires spatial homogeneity of the magnetic fields and suppression of black-body radiation. We discuss the successful implementation of a foam-insulated cryogenic system, and our work on the spatial homogeneity of our system’s magnetic fields.
[1] Gresh, Daniel N., et al. Journal of Molecular Spectroscopy 319 (2016): 1-9.
[2] Ng, Kia Boon, et al., arXiv:2202.01346 (2022)
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Presenters
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Benjamin D Hunt
University of Colorado, Boulder
Authors
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Benjamin D Hunt
University of Colorado, Boulder
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Kia Boon Ng
University of Colorado, Boulder
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Noah Schlossberger
JILA, University of Colorado, Boulder
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Sun Yool Park
University of Colorado, Boulder
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Anzhou Wang
University of Colorado, Boulder
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Tanya Roussy
University of Colorado, Boulder, JILA/NIST
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Trevor Wright
JILA, University of Colorado, Boulder
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Luke A Caldwell
University of Colorado, Boulder, JILA, University of Colorado Boulder and NIST, JILA, Imperial College London
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Antonio Vigil
University of Colorado, Boulder, CU Boulder
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Gus Santaella
University of Colorado, Boulder
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Jun Ye
JILA, NIST, and University of Colorado Boulder, University of Colorado, Boulder
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Eric A Cornell
University of Colorado and NIST