Derives scaling laws for a continuous crossover from non-Markovian coherent emission to Markovian decay in Lieb lattices by engineering bandwidth through lattice symmetry breaking.
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Voltage-controlled shift of an auxiliary quantum object's resonance creates a movable Fano transparency in plasmonic LDOS, enabling continuous tuning of fluorescent decay rates by up to 100x.
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From flat to narrow bands: Engineering quantum emission in a one-dimensional Lieb lattice
Derives scaling laws for a continuous crossover from non-Markovian coherent emission to Markovian decay in Lieb lattices by engineering bandwidth through lattice symmetry breaking.
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Continuous and Reversible Electrical Tuning of Fluorescent Decay Rate via Fano Resonance
Voltage-controlled shift of an auxiliary quantum object's resonance creates a movable Fano transparency in plasmonic LDOS, enabling continuous tuning of fluorescent decay rates by up to 100x.