Quantum feedback control of a solid-state qubit

A. Shnirman; A.C. Doherty; A.C. Doherty; A.C. Doherty; A.N. Korotkov; A.N. Korotkov; A.N. Korotkov; A.N. Korotkov; A.O. Caldeira; Alexander N. Korotkov; C.M. Caves; E. Buks; H.-S. Goan; H.F. Hofmann; H.M. Wiseman; H.M. Wiseman; H.M. Wiseman; J. Wang; J. Wang; M. Fortunato; P. Tombesi; Rusko Ruskov

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Quantum feedback control of a solid-state qubit

Authors: A. Shnirman
A.C. Doherty
A.C. Doherty
A.C. Doherty
A.N. Korotkov
A.N. Korotkov
A.N. Korotkov
A.N. Korotkov
A.O. Caldeira
Alexander N. Korotkov
C.M. Caves
E. Buks
H.-S. Goan
H.F. Hofmann
H.M. Wiseman
H.M. Wiseman
H.M. Wiseman
J. Wang
J. Wang
M. Fortunato
P. Tombesi
Rusko Ruskov
Publication date: 24 April 2002
Publisher: 'American Physical Society (APS)'
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Abstract

We have studied theoretically the basic operation of a quantum feedback loop designed to maintain a desired phase of quantum coherent oscillations in a single solid-state qubit. The degree of oscillations synchronization with external harmonic signal is calculated as a function of feedback strength, taking into account available bandwidth and coupling to environment. The feedback can efficiently suppress the dephasing of oscillations if the qubit coupling to the detector is stronger than coupling to environment.Comment: Extended version of cond-mat/0107280 (5 pages, 5 figures); to be published in PRB (RC

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