Leibfried, D.
, Barrett, M.
, Ben-kish, A.
, Britton, J.
, Chiaverini, J.
, DeMarco, B.
, Itano, W.
, Jelenkovic, B.
, Jost, J.
, Langer, C.
, Lucas, D.
, Meyer, V.
, Rosenband, T.
, Rowe, M.
, Schaetz, T.
and Wineland, D.
(2003),
Building Blocks for a Scalable Quantum Information Processor Based On Trapped Ions, 2003 ICOLS Conf. , Cairns, -1, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=105375
(Accessed April 29, 2024)
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Building Blocks for a Scalable Quantum Information Processor Based On Trapped Ions
Published
Author(s)
, Murray D. Barrett, A Ben-kish, , , B. L. DeMarco, , , , Christopher Langer, D Lucas, V Meyer, , M A. Rowe, ,
Abstract
We describe the underlying concept and experimental demonstration of the basic building blocks of a scalable quantum information processor architecture using trapped ion-qubits. The trap structure is divided into many subregions. In each several ion-qubits can be trapped in complete isolation from all the other ion-qubits in the system. In a particular subregion, ion- qubits can either be stored as memory or subjected to individual rotations or multi-qubit gates. The ion-qubits are guided through the array by appropriately switching control electrode potentials. Excess energy that is gained through the motion of ion-qubits in the array or other heating mechanisms can be removed by sympathetic cooling of the ion-qubits with another ion species. The proposed architecture can be used in a highly parallel fashion, an important prerequisite for fault-tolerant quantum computation.Proceedings Title
2003 ICOLS Conf.
Conference Dates
July 11-18, 2003
Conference Location
Cairns
Conference Title
Proc. 2003 ICOLS Conf.
Pub Type
Conferences
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Citation
Created January 1, 2003, Updated February 17, 2017