Technologies for trapped-ion quantum information systemsProgress toward scalability with hybrid systems

被引:0
|
作者
Amira M. Eltony
Dorian Gangloff
Molu Shi
Alexei Bylinskii
Vladan Vuletić
Isaac L. Chuang
机构
[1] Massachusetts Institute of Technology,Research Laboratory of Electronics, Department of Physics, Center for Ultracold Atoms
来源
Quantum Information Processing | 2016年 / 15卷
关键词
Ion traps; Quantum computation; Quantum information; Trapped ions; Ion–photon interface; Graphene; Indium tin oxide; Cavity cooling; Optical trapping; Micromirror; Motional heating; CMOS ion trap; Hybrid trap; Scalable;
D O I
暂无
中图分类号
学科分类号
摘要
Scaling up from prototype systems to dense arrays of ions on chip, or vast networks of ions connected by photonic channels, will require developing entirely new technologies that combine miniaturized ion trapping systems with devices to capture, transmit, and detect light, while refining how ions are confined and controlled. Building a cohesive ion system from such diverse parts involves many challenges, including navigating materials incompatibilities and undesired coupling between elements. Here, we review our recent efforts to create scalable ion systems incorporating unconventional materials such as graphene and indium tin oxide, integrating devices like optical fibers and mirrors, and exploring alternative ion loading and trapping techniques.
引用
收藏
页码:5351 / 5383
页数:32
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