Trapped-ion spin-motion coupling with microwaves and a near-motional oscillating magnetic field gradient

Raghavendra Srinivas; Shaun C. Burd; Robert T. Sutherland; Andrew C. Wilson; David J. Wineland; Dietrich Leibfried; David T. C Allcock; Daniel H. Slichter

Trapped-ion spin-motion coupling with microwaves and a near-motional oscillating magnetic field gradient

ORAL

Abstract

\noindent We present a new method of spin-motion coupling for trapped ions using microwaves and a magnetic field gradient oscillating close to the ions' motional frequency. We demonstrate and characterize this coupling experimentally in a surface-electrode trap that incorporates current-carrying electrodes to generate the microwave field and the oscillating magnetic field gradient. Using this method, we perform resolved-sideband cooling of a single motional mode to its ground state [1]. We also perform entangling gates between two ions and present initial results on gate fidelity.\\ \noindent [1] R. Srinivas \textit{et al.} arXiv:1812.02098 (2018)

May 31, 2019, 10:42 AM – May 31, 2019, 10:54 AM

Authors

Raghavendra Srinivas
- National Institute of Standards and Technology, University of Colorado, Boulder
Shaun C. Burd
- National Institute of Standards and Technology, University of Colorado, Boulder
Robert T. Sutherland
- Lawrence Livermore National Laboratory
Andrew C. Wilson
- National Institute of Standards and Technology, Boulder
David J. Wineland
- National Institute of Standards and Technology, University of Colorado, Boulder, University of Oregon, Eugene
Dietrich Leibfried
- National Institute of Standards and Technology, Boulder
David T. C Allcock
- National Institute of Standards and Technology, University of Colorado, Boulder, University of Oregon, Eugene
Daniel H. Slichter
- National Institute of Standards and Technology, Boulder