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Trapped Ion Quantum Computing

Individually Addressed Entangling Gates in a Two-Dimensional Ion Crystal

arXiv
Authors: Y. -H. Hou, Y. -J. Yi, Y. -K. Wu, Y. -Y. Chen, L. Zhang, Y. Wang, Y. -L. Xu, C. Zhang, Q. -X. Mei, H. -X. Yang, J. -Y. Ma, S. -A. Guo, J. Ye, B. -X. Qi, Z. -C. Zhou, P. -Y. Hou, L. -M. Duan

Year

2024

Paper ID

66308

Status

Preprint

Abstract Read

~2 min

Abstract Words

175

Citations

N/A

Abstract

Two-dimensional (2D) ion crystals have become a promising way to scale up qubit numbers for ion trap quantum information processing. However, to realize universal quantum computing in this system, individually addressed high-fidelity two-qubit entangling gates still remain challenging due to the inevitable micromotion of ions in a 2D crystal as well as the technical difficulty in 2D addressing. Here we demonstrate two-qubit entangling gates between any ion pairs in a 2D crystal of four ions. We use symmetrically placed crossed acousto-optic deflectors (AODs) to drive Raman transitions and achieve an addressing crosstalk error below 0.1%. We design and demonstrate a gate sequence by alternatingly addressing two target ions, making it compatible with any single-ion addressing techniques without crosstalk from multiple addressing beams. We further examine the gate performance versus the micromotion amplitude of the ions and show that its effect can be compensated by a recalibration of the laser intensity without degrading the gate fidelity. Our work paves the way for ion trap quantum computing with hundreds to thousands of qubits on a 2D ion crystal.

Why This Paper Matters

  • This paper contributes to the Trapped-Ion Quantum Computing research area in the Quantum Articles archive.
  • It adds a 2024 reference point for readers tracking recent quantum research.
  • Two-dimensional (2D) ion crystals have become a promising way to scale up qubit numbers for ion trap quantum information processing.

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