Adaptive measurement systems using digital optical technologies

  1. Chair of Measurement and Sensor System Technique, TU Dresden

juergen.czarske@tu-dresden.de

Recent advances in the control of light fields enable a paradigm shift of measurement systems. Using adaptive components, novel systems are designed for the systematic enhancement of computer-aided metrology. For biomedical applications the employment of electrically tunable lenses in 3D microscopy with structured illumination is outlined. Adaptive microscopy of zebrafish embryos with reporter gene-driven fluorescence in the thyroid gland is highlighted. We report on a contactless mechanical phenotyping. This is accomplished by taking advantage of Brillouin scattering and a virtually imaged phased array spectrometer. Exploiting scattering effects by time-reversal enables the transmission of structured light patterns through multimode fibers. The delivery of nearly diffraction-limited light into can be harnessed for optogenetics. The paradigm-shift to adaptive digital metrology by using programmable photonic devices will be highlighted.

Manuscript not yet submitted. The submission phase is currently closed.
@inproceedings{dgao118-h1, title = {Adaptive measurement systems using digital optical technologies}, author = {Jürgen W. Czarske, Nektarios Koukourakis, Daniel Haufe, Lars Büttner}, booktitle = {DGaO-Proceedings, 118. Jahrestagung}, year = {2017}, publisher = {Deutsche Gesellschaft für angewandte Optik e.V.}, issn = {1614-8436}, note = {Talk H1} }
118. Annual Conference of the DGaO · Dresden · 2017