I am currently a postdoctoral researcher at the Center of Functionally Integrative Neuroscience within the Department of Clinical Medicine at Aarhus University, Denmark.
Utilizing magnetic resonance imaging (MRI), a powerful and non-invasive imaging technique for studying living tissue, forms the crux of my research interests. While MRI excels in providing detailed structural information of tissues, its specificity can sometimes be limited. My primary focus lies in developing novel biophysical models of tissue to investigate its magnetic properties at the micrometer scale using MRI.
During MRI scans, our bodies are subjected to a strong magnetic field, resulting in the magnetization of our tissue. This magnetization, which varies depending on the tissue type, can be quantified through MRI. By developing intricate biophysical models to elucidate the magnetic microstructure of tissues and subsequently predicting the MRI signals, my aim is to enhance the specificity of MRI diagnostics and imaging.
With a background rooted in physics, I possess a robust theoretical understanding of advanced electrodynamics, programming, statistical physics, and MR physics, all of which I use in my research