Line-field confocal optical coherence tomography (LC-OCT) captures high-resolution images of skin tissue at the cellular level, and then confocal Raman microspectroscopy analyzes the chemical makeup ...

Recent advances in optical imaging and sensing have significantly improved our ability to investigate biological and material systems. However, many ...

The Newton 7.0 is a state-of-the-art optical imaging system that utilizes bioluminescence, fluorescence, and 3D tomographic imaging in one device. Thanks to its sophisticated features and easy-to-use ...

Using lasers and photodetectors, a new optical brain-imaging tool is providing a never-before-seen look inside your head. The non-invasive tool projects and measures infrared light as it is projected ...

Imaging spectroscopic ellipsometry delivers nanometer-level sensitivity and spatial resolution, addressing the limitations of conventional metrology techniques.

The Automated Remote Sensing Solar Simulation (ARSSS) facility within the Applied Sensing Lab at the University of Dayton in a unique facility constructed to support parameterized scene generation for ...

Skin cancer is the most common form of cancer worldwide, and early detection is key to successful treatment. While traditional methods rely on visual inspection and biopsy, researchers are developing ...