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Quantum Algorithms
The role of quantum coherence in dimer and trimer excitation energy transfer
arXiv
Authors: Charlotta Bengtson, Erik Sjöqvist
Year
2017
Paper ID
44876
Status
Preprint
Abstract Read
~2 min
Abstract Words
173
Citations
N/A
Abstract
Recent progress in resource theory of quantum coherence has resulted in measures to quantify coherence in quantum systems. Especially, the l1-norm and relative entropy of coherence have been shown to be proper quantifiers of coherence and have been used to investigate coherence properties in different operational tasks. Since long-lasting quantum coherence has been experimentally confirmed in a number of photosynthetic complexes, it has been debated if and how coherence is connected to the known efficiency of population transfer in such systems. In this study, we investigate quantitatively the relationship between coherence, as quantified by l1-norm and relative entropy of coherence, and efficiency, as quantified by fidelity, for population transfer between end-sites in a network of two-level quantum systems. In particular, we use the coherence averaged over the duration of the population transfer in order to carry out a quantitative comparision between coherence and fidelity. Our results show that although coherence is a necessary requirement for population transfer, there is no unique relation between coherence and the efficiency of the transfer process.
Why This Paper Matters
- It adds a 2017 reference point for readers tracking recent quantum research.
- Recent progress in resource theory of quantum coherence has resulted in measures to quantify coherence in quantum systems.
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