Spin-motion coupling using the transverse field gradient of a laser beam
ORAL
Abstract
As we continue to push toward an ion-based gyroscope interferometer [1], we observe spin-motion coupling of an ion using a single laser beam that drives a stimulaed Raman transition. Transferring momentum to an ion during a laser-driven transition requires a spatial gradient in the Rabi frequency which is typically achieved through the interference of two non-copropagating laser beams. Here [2], we demonstrate momentum transfer perpendicular to the laser beam's wavevector using the spatial gradient of the transverse beam profile. This effect may already be playing an unappreciated role in trapped-ion qubit gates.
[1] W. C. Campbell and P. Hamilton, J. Phys. B. 50, 064002 (2017)
[2] Adam D West et al., Quantum Sci. Technol. 6 024003. (2021)
[1] W. C. Campbell and P. Hamilton, J. Phys. B. 50, 064002 (2017)
[2] Adam D West et al., Quantum Sci. Technol. 6 024003. (2021)
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Publication: Adam D West et al., Quantum Sci. Technol. 6 024003. (2021)
Presenters
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Randy P Putnam
University of California, Los Angeles
Authors
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Randy P Putnam
University of California, Los Angeles
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Adam West
IONQ
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Wesley C Campbell
UCLA, University of California, Los Angeles, Department of Physics and Astronomy, University of California, Los Angeles
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Paul Hamilton
University of California, Los Angeles, UCLA