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Brain injury and trauma monitoring using advanced photonics
Data analysis, Accurate quantification of cerebral oxygenation with numerical methods. Simulating light propagation in diffuse media by Monte-Carlo Method realized by the GPU-based CUDA programming.
Developed a novel methodology to detect and analyze the biomedical information in deep regions of human brain.
BIOphysical Quantitative Imaging Towards Clinical Diagnosis
Towards the system-independent quantification of the constitution and structure of soft tissues including vascular components, multiscale fluid motility as well as mechanical parameters. include the quantitative analysis of image parameters related to biophysics and tissue structure
Gas in Scattering Media Absorption Spectroscopy
is an optical technique for sensing and analysis of gas located within porous and highly scattering solids, developed by Sweden-China Cooperation.
I developed a novel optical aerogel material for a highly sensitive probe, within a laser spectroscopy sensing system, and conducted the MATLAB programmings.
Optical vortices, vector beams, and Higher-Order Poincare Sphere
Optical vortices, vector beams, and Higher-Order Poincare Sphere
A mathmetical attempt to build a theory for combining the optical vortices and vector beams, by ssing higher-order Poincare sphere.
Reach me at my office:
Physikalisch-Technische Bundesanstalt
Abbestraße 2, 10587 Berlin, Germany
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