Publication Details

AFRICAN RESEARCH NEXUS

SHINING A SPOTLIGHT ON AFRICAN RESEARCH

Decoherence-assisted transport in quantum networks

New Journal of Physics, Volume 15, Article 013038, Year 2013

It is shown that energy transfer in a homogeneous fully connected quantum network is assisted by a decohering interaction with environmental spins. Analytic expressions for the transfer probabilities are obtained for the zero temperature case, and the effect is shown to persist at physiological temperatures. This model of decoherence-assisted energy transfer is applied to the Fenna-Matthews-Olson complex. © IOP Publishing and Deutsche Physikalische Gesellschaft.

Marais, Adriana
1. South Africa, Durban University of Kwazulu-natal
Sinayskiy, Ilya
1. South Africa, Durban University of Kwazulu-natal
Kay, Alastair
1. Singapore, Singapore City Centre for Quantum Technologies
2. United Kingdom, Oxford University of Oxford, Keble College
Petruccione, Francesco
1. South Africa, Durban University of Kwazulu-natal
Ekert, Artur
1. Singapore, Singapore City Centre for Quantum Technologies
2. United Kingdom, Oxford University of Oxford

AFRICAN RESEARCH NEXUS

Decoherence-assisted transport in quantum networks

Disclaimer

African Research Nexus

Useful Links

AFRICAN RESEARCH NEXUS

Decoherence-assisted transport in quantum networks

Description

Authors & Co-Authors

Disclaimer

African Research Nexus

Useful Links