Gerhard Krampert scite author profile

We report on optimal control of the photoisomerization of 3,3-diethyl-2,2-thiacyanine iodide dissolved in methanol. Enhancement and reduction of the relative yield of cis to trans isomers are achieved; i.e., the quantum efficiency of the photoisomerization is controlled with optimally phase and amplitude shaped 400 nm femtosecond laser pulses. Single-parameter control schemes, like chirp or intensity variation, fail to change the ratio of the photoproducts. The successful modification of the molecular structure can be regarded as a first step towards controlled stereoselectivity in photochemistry.

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Quantum Control by Ultrafast Polarization Shaping

Brixner

et al. 2004

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We demonstrate that the use of time-dependent light polarization opens a new level of control over quantum systems. With potassium dimer molecules from a supersonic molecular beam, we show that a polarization-shaped laser pulse increases the ionization yield beyond that obtained with an optimally shaped linearly polarized laser pulse. This is due to the different multiphoton ionization pathways in K2 involving dipole transitions which favor different polarization directions of the exciting laser field. This experiment is a qualitative extension of quantum control mechanisms which opens up new directions giving access to the three-dimensional temporal response of molecular systems.

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Generation and characterization of polarization-shaped femtosecond laser pulses

et al. 2002

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Line scan - structured illumination microscopy super-resolution imaging in thick fluorescent samples

Mandula¹,

Kielhorn²,

Wicker³

et al. 2012

Opt. Express

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Structured illumination microscopy in thick fluorescent samples is a challenging task. The out-of-focus fluorescence background deteriorates the illumination pattern and the reconstructed images suffer from influence of noise. We present a combination of structured illumination microscopy with line scanning. This technique reduces the out-of-focus fluorescence background, which improves the modulation and the quality of the illumination pattern and therefore facilitates the reconstruction. We present super-resolution, optically sectioned images of a thick fluorescent sample, revealing details of the specimen's inner structure.

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Control of bond-selective photochemistry in CH $\scriptstyle \mathsf {2}$ BrCl using adaptive femtosecond pulse shaping

Damrauer

Dietl

Krampert

et al. 2002

The European Physical Journal D - Atomic, Molecular and Optical

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