A new partitioning method makes the variational polaron framework computationally feasible for large-scale quantum energy transport networks by leveraging their inherent multi-scale structure.
Prokhorenko and Richard J
2 Pith papers cite this work. Polarity classification is still indexing.
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Pith papers citing it
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2026 2verdicts
UNVERDICTED 2representative citing papers
Natural LH2 complexes with 9-fold symmetry show lower quasistatic disorder than 6- and 12-fold analogues, with hydrogen bonding identified as the key stabilizer.
citing papers explorer
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Scalable framework for quantum transport across large physical networks
A new partitioning method makes the variational polaron framework computationally feasible for large-scale quantum energy transport networks by leveraging their inherent multi-scale structure.
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Minimization of disorder as a key design principle for natural sizes of light harvesting 2 complexes
Natural LH2 complexes with 9-fold symmetry show lower quasistatic disorder than 6- and 12-fold analogues, with hydrogen bonding identified as the key stabilizer.