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Scalable Traps for Quantum Information Processing with Ions*

Jason Amini, National Institute of Standards and Technology

(Session 5 : Friday from 5:00-7:00)

Abstract. J. M. Amini, C. Ospelkaus, H. Uys, C. E. Langer [a], J. Britton, K. R. Brown, D. Leibfried, S. Seidelin [b], A. VanDevender, J. H. Wesenberg [c], and D. J. Wineland. Two of the key goals for the ion trap community are scaling ion traps to hold and manipulate the numbers of qubits needed for complex algorithms and improving the quality of all operations. We will cover some of the developments at NIST on microfabricated surface-electrode traps using optimized modular design components, including a new 'Y' junction design, and using novel magnetic gates. * supported by IARPA and the NIST Quantum Information Program. [a] Current address: Lockheed Martin Space Systems Company, Littleton, CO, USA. [b] Current address: University of Grenoble, France. [c] Current address: Oxford University, U.K.A.