Quantum computation with trapped polar molecules

A. A. Radzig; A. Allouche; A. Barenco; A. Fioretti; A. Nikolov; B. Friedrich; C. Adams; C. Drag; C. Gabbanini; C. H. Townes; C. M. Dion; D. DeMille; D. Jaksch; D. Jaksch; D. Jaksch; D. P. DiVincenzo; D. W. Leung; G. Askar'yan; G. Brennen; G. Igel-Mann; H. L. Bethlem; H. Wang; J. Ahn; J. D. Weinstein; J. L. Bohn; J. L. Hall; J. M. Doyle; J. Miller; J. Shaffer; K. O'Hara; K. P. Huber; L. Santos; M. A. Nielsen; M. Korek; M. V. Romalis; N. Davidson; P. Braun; P. Knight; P. Platzman; R. J. Schoelkopf; R. Loudon; S. Hamann; S. Lamoreaux; S. Magnier; S. Winoto; T. Calarco; T. Savard; T. Takekoshi; U. Gaubatz; V. Khersonskii; W. Demtröder

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Quantum computation with trapped polar molecules

Authors: A. A. Radzig
A. Allouche
A. Barenco
A. Fioretti
A. Nikolov
B. Friedrich
C. Adams
C. Drag
C. Gabbanini
C. H. Townes
C. M. Dion
D. DeMille
D. Jaksch
D. Jaksch
D. Jaksch
D. P. DiVincenzo
D. W. Leung
G. Askar'yan
G. Brennen
G. Igel-Mann
H. L. Bethlem
H. Wang
J. Ahn
J. D. Weinstein
J. L. Bohn
J. L. Hall
J. M. Doyle
J. Miller
J. Shaffer
K. O'Hara
K. P. Huber
L. Santos
M. A. Nielsen
M. Korek
M. V. Romalis
N. Davidson
P. Braun
P. Knight
P. Platzman
R. J. Schoelkopf
R. Loudon
S. Hamann
S. Lamoreaux
S. Magnier
S. Winoto
T. Calarco
T. Savard
T. Takekoshi
U. Gaubatz
V. Khersonskii
W. Demtröder
Publication date: 27 October 2001
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We propose a novel physical realization of a quantum computer. The qubits are electric dipole moments of ultracold diatomic molecules, oriented along or against an external electric field. Individual molecules are held in a 1-D trap array, with an electric field gradient allowing spectroscopic addressing of each site. Bits are coupled via the electric dipole-dipole interaction. Using technologies similar to those already demonstrated, this design can plausibly lead to a quantum computer with

\gtrsim 10^4

qubits, which can perform

\sim 10^5

CNOT gates in the anticipated decoherence time of

\sim 5

s.Comment: 4 pages, RevTeX 4, 2 figures. Edited for length and converted to RevTeX, but no substantial changes from earlier pdf versio

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