The ‘Tapping Mode SQUID-on-Tip’ (TM-SOT) microscope enables multimodal imaging to be performed extremely close to the sample surface using tapping mode feedback. This allows for stability during ...

Intravital mesoscale imaging plays a crucial role in bridging the gap between cellular and organ-level investigations by enabling high-resolution visualization across large fields of view. Continuous ...

Lensless imaging and image reconstruction techniques represent a transformative approach in computational imaging, where conventional optical lenses are replaced by thin, custom-designed masks. This ...

Cornell researchers have used high-resolution 3D imaging to detect, for the first time, the atomic-scale defects in computer chips that can sabotage their performance. The imaging method, which was ...

Cornell researchers have used advanced electron microscopy to identify "mouse bite" defects in 3D transistors for the first time ...

A team of physicists has developed a groundbreaking method for detecting congestive heart failure with greater ease and precision than previously thought possible. This multidisciplinary study, ...

In modern Earth science research, how to “understand” the Earth’s internal structure and dynamic processes has always been a core issue of concern for scientists. However, due to the inaccessibility ...

Today, a similar transformation is quietly redefining the field of hair restoration. As patients increasingly seek predictable and natural results ...

The semiconductor industry is evolving with quantum imaging and AI-driven technologies, enhancing defect detection and ...

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 ...

At the forefront of scientific research, our faculty are dedicated to advancing theoretical understanding and practical applications of AI technologies. RIT's College of Science faculty are actively ...