Efficient and robust strong-field control of population transfer in sensitizer dyes with designed femtosecond laser pulses

We demonstrate control of electronic population transfer in molecules with the help of appropriately shaped femtosecond laser pulses. To this end we investigate two photosensitizer dyes in solution being prepared in the triplet ground state. Excitation within the triplet system is followed by inters...

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Published in:Physical chemistry chemical physics : PCCP 2011-05, Vol.13 (19), p.8733-8746
Main Authors: Schneider, Johannes, Wollenhaupt, Matthias, Winzenburg, Andreas, Bayer, Tim, Köhler, Jens, Faust, Rüdiger, Baumert, Thomas
Format: Article
Language:English
Subjects:
Dyes
Electronics
Excitation
Femtosecond
Fluorescence
Landscapes
Lasers
Molecular Structure
Organometallic Compounds - chemical synthesis
Organometallic Compounds - chemistry
Photosensitizing Agents - chemical synthesis
Photosensitizing Agents - chemistry
Quantum Theory
Schroedinger equation
Time Factors
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cited_by cdi_FETCH-LOGICAL-c360t-ec436c681e15c52d8dd24726fc9b8aa4f55b2d9a85a4782332b8144282cf85dd3
cites cdi_FETCH-LOGICAL-c360t-ec436c681e15c52d8dd24726fc9b8aa4f55b2d9a85a4782332b8144282cf85dd3
container_end_page 8746
container_issue 19
container_start_page 8733
container_title Physical chemistry chemical physics : PCCP
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creator Schneider, Johannes
Wollenhaupt, Matthias
Winzenburg, Andreas
Bayer, Tim
Köhler, Jens
Faust, Rüdiger
Baumert, Thomas
description We demonstrate control of electronic population transfer in molecules with the help of appropriately shaped femtosecond laser pulses. To this end we investigate two photosensitizer dyes in solution being prepared in the triplet ground state. Excitation within the triplet system is followed by intersystem crossing and the corresponding singlet fluorescence is monitored as a measure of population transfer in the triplet system. We record control landscapes with respect to the fluorescence intensity on both dyes by a systematic variation of laser pulse shapes combining second order and third order dispersion. In the strong-field regime we find highly structured topologies with large areas of maximum or minimum population transfer being insensitive over a certain range of applied laser intensities thus demonstrating robustness. We then compare our experimental results with simulations on generic molecular potentials by solving the time-dependent Schrödinger equation for excitation with shaped pulses. Control landscapes with respect to population transfer confirm the general trends from experiments. An analysis of regions with maximum or minimum population transfer indicates that coherent processes are responsible for the outcome of our excitation process. The physical mechanisms of joint motion of ground and excited state wave packets or population of a vibrational eigenstate in the excited state permit us to discuss the molecular dynamics in an atom-like picture.
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source Royal Society of Chemistry
subjects Dyes
Electronics
Excitation
Femtosecond
Fluorescence
Landscapes
Lasers
Molecular Structure
Organometallic Compounds - chemical synthesis
Organometallic Compounds - chemistry
Photosensitizing Agents - chemical synthesis
Photosensitizing Agents - chemistry
Quantum Theory
Schroedinger equation
Time Factors
title Efficient and robust strong-field control of population transfer in sensitizer dyes with designed femtosecond laser pulses
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