Abstract <p>We presented the first experimental realization of ion trapping in a microfabricated surface ion trap in the Russian Federation. We designed and modeled an asymmetrical surface ion trap, simulating the pseudopotential and confinement of a <sup>174</sup>Yb<sup>+</sup> ion. Based on this design, a planar trap was manufactured and successfully tested, demonstrating stable confinement of a single <sup>174</sup>Yb<sup>+</sup> ion and the formation of a linear ion chain. The results confirm the validity of the design and modeling, marking a key step toward scalable trapped‑ion platforms in Russia.</p>

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Design, Modeling, and Experimental Realization of a Surface Ion Trap for 174Yb+

  • T. S. Abbasov,
  • I. A. Stolyarov,
  • D. S. Chuchelov,
  • M. I. Vaskovskaya,
  • S. A. Zibrov,
  • N. L. Kvashnin,
  • P. V. Borisyuk,
  • I. V. Sherstov

摘要

Abstract

We presented the first experimental realization of ion trapping in a microfabricated surface ion trap in the Russian Federation. We designed and modeled an asymmetrical surface ion trap, simulating the pseudopotential and confinement of a 174Yb+ ion. Based on this design, a planar trap was manufactured and successfully tested, demonstrating stable confinement of a single 174Yb+ ion and the formation of a linear ion chain. The results confirm the validity of the design and modeling, marking a key step toward scalable trapped‑ion platforms in Russia.