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.
Hallett , author J
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A review summarizing input-output methods, theoretical proposals, and experimental demonstrations of emitter-based single-photon switches in nanophotonic structures.
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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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Routing single photons with quantum emitters coupled to nanostructures
A review summarizing input-output methods, theoretical proposals, and experimental demonstrations of emitter-based single-photon switches in nanophotonic structures.