42 research outputs found
Spontaneous formation of optically induced surface relief gratings
A model based on Fick's law of diffusion as a phenomenological description of
the molecular motion, and on the coupled mode theory, is developped to describe
single-beam surface relief grating formation in azopolymers thin films. It
allows to explain the mechanism of spontaneous patterning, and
self-organization. It allows also to compute the surface relief profile and its
evolution in time with good agreement with experiments
Light-induced spiral mass transport in azo-polymer films under vortex-beam illumination
When an azobenzene-containing polymer film is exposed to a non-uniform
illumination, a light-induced mass migration process may be induced, leading to
the formation of relief patterns on the polymer free surface. Despite a
research effort of many years and several proposed models many aspects of this
phenomenon remain not well understood. Here we report the appearance of
spiral-shaped relief patterns on the polymer under the illumination of focused
Laguerre-Gauss beams, having helical wavefront and an optical vortex at their
axis. The induced spiral reliefs are sensitive to the vortex topological charge
and to the wavefront handedness. These findings are unexpected, because the
"doughnut"-shaped intensity profile of Laguerre- Gauss beams contains no
information about the wavefront handedness. We propose a model that explains
the main features of this phenomenon from the surface-mediated interference of
the longitudinal and the transverse components of the optical field. These
results may find applications in optical micro- and nanolithography and
optical-field.Comment: Open Access at Journal Reference homepag
Stimuli Thresholds for Isomerization-Induced Molecular Motions in Azobenzene-Containing Materials.
We use large-scale molecular dynamics simulations of the isomerizations of azobenzene molecules diluted inside a simple molecular material to investigate the effect of a modification of the cis isomer shape on the induced diffusion mechanism. To this end we simulate incomplete isomerizations, modifying the amplitude of the trans-to-cis isomerization. We find thresholds in the evolution of the host molecules mobility with the isomerization amplitude, a result predicted by the cage-breaking mechanism hypothesis (Teboul, V.; Saiddine, M.; Nunzi, J. M.; Accary, J. B. J. Chem. Phys. 2011, 134, 114517) and by the gradient pressure mechanism theory (Barrett, C. J.; Rochon, P. L.; Natansohn, A. L. J. Chem. Phys. 1998, 109, 1505–1516.). Above the threshold the diffusion then increases linearly with the variation of the chromophore size induced by the isomerization
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