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Quantum Information Processing
Published in: Quantum Information Processing 6/2017

01-06-2017

The excitonic qubit coupled with a phonon bath on a star graph: anomalous decoherence and coherence revivals

Authors: S. Yalouz, C. Falvo, V. Pouthier

Published in: Quantum Information Processing | Issue 6/2017

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Abstract

Based on the operatorial formulation of perturbation theory, the dynamical properties of a Frenkel exciton coupled with a thermal phonon bath on a star graph are studied. Within this method, the dynamics is governed by an effective Hamiltonian which accounts for exciton–phonon entanglement. The exciton is dressed by a virtual phonon cloud, whereas the phonons are dressed by virtual excitonic transitions. Special attention is paid to the description of the coherence of a qubit state initially located on the central node of the graph. Within the nonadiabatic weak coupling limit, it is shown that several timescales govern the coherence dynamics. In the short time limit, the coherence behaves as if the exciton was insensitive to the phonon bath. Then, quantum decoherence takes place, this decoherence being enhanced by the size of the graph and by temperature. However, the coherence does not vanish in the long time limit. Instead, it exhibits incomplete revivals that occur periodically at specific revival times and it shows almost exact recurrences that take place at particular super-revival times, a singular behavior that has been corroborated by performing exact quantum calculations.
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Appendix
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Metadata
Title
The excitonic qubit coupled with a phonon bath on a star graph: anomalous decoherence and coherence revivals
Authors
S. Yalouz
C. Falvo
V. Pouthier
Publication date
01-06-2017
Publisher
Springer US
Published in
Quantum Information Processing / Issue 6/2017
Print ISSN: 1570-0755
Electronic ISSN: 1573-1332
DOI
https://doi.org/10.1007/s11128-017-1592-0

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