A decomposition framework for dimer absorption spectra separates excitonic and charge-transfer contributions, revealing CT-induced broadening via energetic splitting rather than individual band widening, applied to a BPEA dimer.
Bruschi , author R
2 Pith papers cite this work. Polarity classification is still indexing.
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physics.chem-ph 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Detection operator in 2D electronic spectroscopy operationally defines dephasing, with coherent emission retaining standard T2 connection while population observables encode population redistribution leading to distinct apparent linewidths.
citing papers explorer
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Excitonic and Charge-Transfer Contributions to Molecular Dimer Absorption: A Decomposition Approach Applied to a BPEA Dimer
A decomposition framework for dimer absorption spectra separates excitonic and charge-transfer contributions, revealing CT-induced broadening via energetic splitting rather than individual band widening, applied to a BPEA dimer.
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Detection Defines Dephasing in Two-Dimensional Electronic Spectroscopy of Materials: Coherent Field Emission versus Incoherent Population Observables
Detection operator in 2D electronic spectroscopy operationally defines dephasing, with coherent emission retaining standard T2 connection while population observables encode population redistribution leading to distinct apparent linewidths.