Scalable Ion Trap Architecture for Universal Quantum Computation by Collisions

Liang, Pengfei; Guo, Lingzhen

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Scalable Ion Trap Architecture for Universal Quantum Computation by Collisions

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Guo, Lingzhen
Institut für Theoretische Festkörperphysik, Karlsruhe Institute of Technology;
Marquardt Division, Max Planck Institute for the Science of Light, Max Planck Society;

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1801.02593.pdf
(プレプリント), 301KB

付随資料 (公開)

arXiv 1801.02593.png
(付録資料), 71KB

引用

Liang, P., & Guo, L. (submitted). Scalable Ion Trap Architecture for Universal Quantum Computation by Collisions.

引用: https://hdl.handle.net/21.11116/0000-0002-4FA5-C

要旨

We propose a scalable ion trap architecture for universal quantum computation, which is composed of an array of ion traps with one ion confined in each trap. The neighboring traps are designed capable of merging into one single trap. The universal two-qubit SWAP−−−−−−√ gate is realized by direct collision of two neighboring ions in the merged trap, which induces an effective spin-spin interaction between two ions. We find that the collision-induced spin-spin interaction decreases with the third power of two ions' trapping distance. Even with a 200 μm trapping distance between atomic ions in Paul traps, it is still possible to realize a two-qubit gate operation with speed in 0.1 kHz regime. The speed can be further increased up into 0.1 MHz regime using electrons with 10 mm trapping distance in Penning traps.