Biophotonics sensing
Our biophotonics sensing research focuses on leveraging complex optics to develop advanced optical sensing technologies for extracting key physiological information from biological tissues. By analyzing complex light patterns and signals, we aim to achieve precise, real-time monitoring of critical parameters such as blood flow and oxygenation.
Wavefront shaping
Our wavefront shaping research focuses on advancing wavefront shaping techniques to address the challenges of light scattering in disordered media such as biological tissues. We have developed real-valued intensity transmission matrix (RVITM), a novel technology designed to precisely control the phase and amplitude of light, optimizing its interaction with complex tissue structures. This innovation enhances imaging depth and resolution, enabling real-time sensing for more accurate medical diagnostics. By extending the capabilities of light-tissue interactions, our work is driving the development of groundbreaking non-invasive and minimally invasive optical devices for healthcare monitoring.
Biophotonics imaging
Our biophotonics imaging research leverages wavefront shaping for precise light control in biological tissues, enabling non-invasive imaging with enhanced depth and clarity. Additionally, we apply wavefront shaping through optical fibres to achieve minimally invasive imaging, such as in endoscopy. By advancing these dual approaches, we are pushing the boundaries of imaging technologies to develop innovative solutions that improve both non-invasive and minimally invasive diagnostic techniques for medical applications.
