Correlation-induced suppression of decoherence in capacitively coupled Cooper-pair boxes

J. Q. You; Xuedong Hu; Franco Nori

doi:10.1103/PhysRevB.72.144529

Correlation-induced suppression of decoherence in capacitively coupled Cooper-pair boxes

J. Q. You
, Xuedong Hu
, Franco Nori

Physics

RIKEN
Fudan University
University of Michigan, Ann Arbor

Research output: Contribution to journal › Article › peer-review

51 Scopus citations

Abstract

Charge fluctuations from gate bias and background traps severely limit the performance of a charge qubit in a Cooper-pair box (CPB). Here we present an experimentally realizable method to control the decoherence effects of these charge fluctuations using two strongly capacitively coupled CPBs. This coupled-box system has a low-decoherence subspace of two states. Our results show that the interbox Coulomb correlation can help significantly suppress decoherence of this two-level system, making it a promising candidate as a logical qubit, encoded using two CPBs.

Original language	English
Article number	144529
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	72
Issue number	14
DOIs	https://doi.org/10.1103/PhysRevB.72.144529
State	Published - Oct 1 2005

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10.1103/PhysRevB.72.144529

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abstract = "Charge fluctuations from gate bias and background traps severely limit the performance of a charge qubit in a Cooper-pair box (CPB). Here we present an experimentally realizable method to control the decoherence effects of these charge fluctuations using two strongly capacitively coupled CPBs. This coupled-box system has a low-decoherence subspace of two states. Our results show that the interbox Coulomb correlation can help significantly suppress decoherence of this two-level system, making it a promising candidate as a logical qubit, encoded using two CPBs.",

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N2 - Charge fluctuations from gate bias and background traps severely limit the performance of a charge qubit in a Cooper-pair box (CPB). Here we present an experimentally realizable method to control the decoherence effects of these charge fluctuations using two strongly capacitively coupled CPBs. This coupled-box system has a low-decoherence subspace of two states. Our results show that the interbox Coulomb correlation can help significantly suppress decoherence of this two-level system, making it a promising candidate as a logical qubit, encoded using two CPBs.

AB - Charge fluctuations from gate bias and background traps severely limit the performance of a charge qubit in a Cooper-pair box (CPB). Here we present an experimentally realizable method to control the decoherence effects of these charge fluctuations using two strongly capacitively coupled CPBs. This coupled-box system has a low-decoherence subspace of two states. Our results show that the interbox Coulomb correlation can help significantly suppress decoherence of this two-level system, making it a promising candidate as a logical qubit, encoded using two CPBs.

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Correlation-induced suppression of decoherence in capacitively coupled Cooper-pair boxes

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