Abstract
Quantum information processing (QIP) has become a hot research topic as evidenced by S. Haroche and D. J. Wineland receiving the Nobel Prize in Physics in 2012. Various MEMS-based microfabrication methods will be a key enabling technology in implementing novel and scalable ion traps for QIP. This paper provides a brief introduction of ion trap devices, and reviews ion traps made using conventional precision machining as well as MEMS-based microfabrication. Then, microfabrication methods for ion traps are explained in detail. Finally, current research issues in microfabricated ion traps are presented. The QIP renders significant new challenges for MEMS, as various QIP technologies are being developed for secure encrypted communication and complex computing applications.
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Cho, D. I. D., Hong, S., Lee, M., & Kim, T. (2015, December 1). A review of silicon microfabricated ion traps for quantum information processing. Micro and Nano Systems Letters. Society of Micro and Nano Systems. https://doi.org/10.1186/s40486-015-0013-3
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