Biomolecules and nanostructures
The Optical Sciences group studies the interaction of light and matter at the nanoscale.
We do this by exploring ways to shape light and its environment. It's what we call
active and passive control. Our current focus is on the interaction of light with
biomolecules and nanostructures. We are part of Twente
University's Department of Science and Technology and member of the
Quantum control experiment reveals solvation-induced decoherence(full pdf)
P. van der Walle, M. T. W. Milder, L. Kuipers, and J. L. Herek
Proceedings of the National Academy of Sciences of the United States of America (PNAS)
vol 106 no 19 p7714–7717 may 12 2009
Coherent control holds the promise of becoming a powerful spectroscopic tool for the study of complex molecular systems.
Achieving control requires coherence in the quantum system under study. In the condensed phase, coherence is typically lost rapidly because of fluctuating interactions between the solvated molecule and its surrounding environment. We investigate the degree of attainable control on a dye molecule when the fluctuations of its environment are systematically varied. A single successful learning curve for optimizing stimulated emission from the dye in solution is reapplied for a range of solvents with varying viscosity, revealing a striking trend that is correlated directly with the dephasing time.
Our results provide clear evidence that the environment limits the leverage of control on the molecular system. This insight can be used to enhance the yield of control experiments greatly.