We discuss the possibly constructive role of disorder for the optimization of exciton transport in the FMO (Fenna-Matthews-Olson) light harvesting complex. Our analysis, which models the FMO as a 3D random graph, demonstrates the existence of a small fraction of optimal, though highly asymmetric, non-periodic conformations, which yield near-to-optimal coherent excitation transport. We argue that, on transient time scales, such quantum interference enhanced transport does always better than stochastic activation
We explore various design principles for efficient excitation energy transport in complex quantum sy...
We study, under very general conditions and in a variety of geometries, quantum enhancement of trans...
We explain how centrosymmetry, together with a dominant doublet of energy eigenstates in the local d...
We investigate coherent and incoherent excitation transfer in a random network with dipole–dipole in...
Stunningly large exciton transfer rates in the light harvesting complex of photosynthesis, together ...
We explore various design principles for efficient excitation energy transport in complex quantum sy...
Abstract – Stunningly large exciton transfer rates in the light harvesting complex of photo-synthesi...
We study quantum enhancement of transport in open systems in the presence of disorder and dephasing....
We study quantum enhancement of transport in open systems in the presence of disorder and dephasing....
International audienceUsing a tight binding model, we investigate the dynamics of an exciton on a di...
International audienceUsing a tight binding model, we investigate the dynamics of an exciton on a di...
International audienceUsing a tight binding model, we investigate the dynamics of an exciton on a di...
International audienceUsing a tight binding model, we investigate the dynamics of an exciton on a di...
We explore the feasibility of the coherent control of excitonic dynamics in light-harvesting complex...
We explore the feasibility of the coherent control of excitonic dynamics in light-harvesting complex...
We explore various design principles for efficient excitation energy transport in complex quantum sy...
We study, under very general conditions and in a variety of geometries, quantum enhancement of trans...
We explain how centrosymmetry, together with a dominant doublet of energy eigenstates in the local d...
We investigate coherent and incoherent excitation transfer in a random network with dipole–dipole in...
Stunningly large exciton transfer rates in the light harvesting complex of photosynthesis, together ...
We explore various design principles for efficient excitation energy transport in complex quantum sy...
Abstract – Stunningly large exciton transfer rates in the light harvesting complex of photo-synthesi...
We study quantum enhancement of transport in open systems in the presence of disorder and dephasing....
We study quantum enhancement of transport in open systems in the presence of disorder and dephasing....
International audienceUsing a tight binding model, we investigate the dynamics of an exciton on a di...
International audienceUsing a tight binding model, we investigate the dynamics of an exciton on a di...
International audienceUsing a tight binding model, we investigate the dynamics of an exciton on a di...
International audienceUsing a tight binding model, we investigate the dynamics of an exciton on a di...
We explore the feasibility of the coherent control of excitonic dynamics in light-harvesting complex...
We explore the feasibility of the coherent control of excitonic dynamics in light-harvesting complex...
We explore various design principles for efficient excitation energy transport in complex quantum sy...
We study, under very general conditions and in a variety of geometries, quantum enhancement of trans...
We explain how centrosymmetry, together with a dominant doublet of energy eigenstates in the local d...