Resolution of strongly competitive product channels with optimal dynamic discrimination: application to flavins.

Abstract

Fundamental molecular selectivity limits are probed by exploiting laser-controlled quantum interferences for the creation of distinct spectral signatures in two flavin molecules, erstwhile nearly indistinguishable via steady-state methods. Optimal dynamic discrimination (ODD) uses optimally shaped laser fields to transiently amplify minute molecular variations that would otherwise go unnoticed with linear absorption and fluorescence techniques. ODD is experimentally demonstrated by combining an optimally shaped UV pump pulse with a time-delayed, fluorescence-depleting IR pulse for discrimination amongst riboflavin and flavin mononucleotide in aqueous solution, which are structurally and spectroscopically very similar. Closed-loop, adaptive pulse shaping discovers a set of UV pulses that induce disparate responses from the two flavins and allows for concomitant flavin discrimination of ∼16σ. Additionally, attainment of ODD permits quantitative, analytical detection of the individual constituents in a flavin mixture. The successful implementation of ODD on quantum systems of such high complexity bodes well for the future development of the field and the use of ODD techniques in a variety of demanding practical applications.

DOI: 10.1063/1.3518751

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Cite this paper

@article{Roslund2011ResolutionOS, title={Resolution of strongly competitive product channels with optimal dynamic discrimination: application to flavins.}, author={Jonathan Roslund and Matthias Roth and Laurent Guyon and V{\'e}ronique Boutou and François Courvoisier and J . Wolf and Herschel Rabitz}, journal={The Journal of chemical physics}, year={2011}, volume={134 3}, pages={034511} }