Integrated Fresnel Mirrors for Scalable Trapped Ion Quantum Computing | Zendy

Erik W. Streed | Zendy; Moji Ghadimi | Zendy; Valdis Blūms | Zendy; Benjamin G. Norton | Zendy; Paul A. Connor | Zendy; Jason Amini | Zendy; Curtis Volin | Zendy; Mirko Lobino | Zendy; D. Kielpinski | Zendy

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Integrated Fresnel Mirrors for Scalable Trapped Ion Quantum Computing

Author(s) -

Erik W. Streed,

Moji Ghadimi,

Valdis Blūms,

Benjamin G. Norton,

Paul A. Connor,

Jason Amini,

Curtis Volin,

Mirko Lobino,

D. Kielpinski

Publication year - 2016

Publication title -

conference on lasers and electro-optics

Language(s) - English

Resource type - Conference proceedings

DOI - 10.1364/cleo_qels.2016.fm2c.2

Subject(s) - bottleneck , optoelectronics , scalability , photonics , ion , quantum computer , coupling (piping) , quantum optics , optics , materials science , interconnection , physics , quantum , computer science , telecommunications , embedded system , quantum mechanics , database , metallurgy

Photonic interconnects are a bottleneck to achieving large-scale trapped ion quantum computing. We fabricated a surface trap with diffractive mirrors and achieved sub-wavelength imaging of a trapped ion and 2.0±0.5% coupling into a single-mode fiber.Griffith Sciences, School of Natural SciencesFull Tex

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