We do research on the theory of molecular quantum optics and open quantum systems. Current projects focus on the study of coherence and entanglement with molecular systems, and on the physical mechanisms that effect their quantum-to-classical transition.
[more] A recent article in Phys. Rev. Lett. identifies the dominant decoherence mechanism responsible for the environmental super-selection and stabilization of handed molecular configurations, allowing us to predict how this effect can be observed in an experiment.
[more] A recent article in Phys. Rev. Lett. describes a way to demonstrate non-classical correlations with respect to macroscopically distinct single particle positions in the free motion of far separated atoms.
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