Transport across quantum networks underlies many problems, from state transfer on a spin network to energy transport in photosynthetic complexes. However, networks can contain dark subspaces that block the transportation, and various methods used to enhance transfer on quantum networks can be viewed as equivalently avoiding, modifying, or destroying the dark subspace. Here, we exploit graph theoretical tools to identify the dark subspaces and show that asymptotically almost surely they do not exist for large networks, while for small ones they can be suppressed by properly perturbing the coupling rates between the network nodes. More specifically, we apply these results to describe the recently experimentally observed and robust transport b...
Transport phenomena on a quantum scale appear in a variety of systems, ranging from photosynthetic c...
Pigment-protein complexes (PPCs) play a central role in facilitating excitation energy transfer (EET...
The scope of this PhD is twofold and can be integrated simultaneously in quantum information theory...
We present a theoretical analysis of the efficiency and rate of excitation transport on a network de...
"Copyright 2009 American Institute of Physics. This article may be downloaded for personal use only....
Understanding energy transport in quantum systems is crucial for an understanding of light-harvestin...
We consider a spin network resembling an $\alpha$-helix structure and study quantum information tran...
'This is an author-created, un-copyedited version of an article accepted for publication in New Jour...
Electron transport through small systems in semiconductor devices plays an essential role for any ap...
Original article can be found at: http://www.iop.org/EJ/journal/1367-2630/1 DOI: 10.1088/1367-2630/1...
We explore various design principles for efficient excitation energy transport in complex quantum sy...
Escaping from a complex maze, by exploring different paths with several decision-making branches in ...
Coherent transport of an excitation through a network corresponds to continuous-time quantum walk on...
We consider quantum excitation energy transport (EET) in a network of two-state nodes in the Markovi...
Stunningly large exciton transfer rates in the light harvesting complex of photosynthesis, together ...
Transport phenomena on a quantum scale appear in a variety of systems, ranging from photosynthetic c...
Pigment-protein complexes (PPCs) play a central role in facilitating excitation energy transfer (EET...
The scope of this PhD is twofold and can be integrated simultaneously in quantum information theory...
We present a theoretical analysis of the efficiency and rate of excitation transport on a network de...
"Copyright 2009 American Institute of Physics. This article may be downloaded for personal use only....
Understanding energy transport in quantum systems is crucial for an understanding of light-harvestin...
We consider a spin network resembling an $\alpha$-helix structure and study quantum information tran...
'This is an author-created, un-copyedited version of an article accepted for publication in New Jour...
Electron transport through small systems in semiconductor devices plays an essential role for any ap...
Original article can be found at: http://www.iop.org/EJ/journal/1367-2630/1 DOI: 10.1088/1367-2630/1...
We explore various design principles for efficient excitation energy transport in complex quantum sy...
Escaping from a complex maze, by exploring different paths with several decision-making branches in ...
Coherent transport of an excitation through a network corresponds to continuous-time quantum walk on...
We consider quantum excitation energy transport (EET) in a network of two-state nodes in the Markovi...
Stunningly large exciton transfer rates in the light harvesting complex of photosynthesis, together ...
Transport phenomena on a quantum scale appear in a variety of systems, ranging from photosynthetic c...
Pigment-protein complexes (PPCs) play a central role in facilitating excitation energy transfer (EET...
The scope of this PhD is twofold and can be integrated simultaneously in quantum information theory...