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Decoherence induced deformation of the ground state in adiabatic quantum computation.


ABSTRACT: Despite more than a decade of research on adiabatic quantum computation (AQC), its decoherence properties are still poorly understood. Many theoretical works have suggested that AQC is more robust against decoherence, but a quantitative relation between its performance and the qubits' coherence properties, such as decoherence time, is still lacking. While the thermal excitations are known to be important sources of errors, they are predominantly dependent on temperature but rather insensitive to the qubits' coherence. Less understood is the role of virtual excitations, which can also reduce the ground state probability even at zero temperature. Here, we introduce normalized ground state fidelity as a measure of the decoherence-induced deformation of the ground state due to virtual transitions. We calculate the normalized fidelity perturbatively at finite temperatures and discuss its relation to the qubits' relaxation and dephasing times, as well as its projected scaling properties.

SUBMITTER: Deng Q 

PROVIDER: S-EPMC3608076 | biostudies-literature | 2013

REPOSITORIES: biostudies-literature

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Decoherence induced deformation of the ground state in adiabatic quantum computation.

Deng Qiang Q   Averin Dmitri V DV   Amin Mohammad H MH   Smith Peter P  

Scientific reports 20130101


Despite more than a decade of research on adiabatic quantum computation (AQC), its decoherence properties are still poorly understood. Many theoretical works have suggested that AQC is more robust against decoherence, but a quantitative relation between its performance and the qubits' coherence properties, such as decoherence time, is still lacking. While the thermal excitations are known to be important sources of errors, they are predominantly dependent on temperature but rather insensitive to  ...[more]

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