Nanotechnology has revolutionized healthcare by enabling control over materials at the molecular and atomic level. Nanoscale materials exhibit unique ...

Medical imaging is a multidisciplinary science encompassing a wide range of powerful techniques with applications in both patient care and fundamental biological studies. In this latest Physics World ...

Our group studies the physics of imaging and new methods of imaging physics. Examples include optical hydrodynamics, in which the propagation of light is described in terms of fluid flow, statistical ...

In vivo imaging plays an essential role within medicine, pharmaceutics and biology. Imaging with fluorescent tracers is one promising approach, as multiple tracer types are available to simultaneously ...

A new synthesis of seismic research shows that artificial intelligence, when combined with physical principles, is rapidly ...

MIT researchers are developing a new kind of x-ray imager that uses information that traditional machines ignore. By looking at how tissue refracts the rays, not simply at how it absorbs them, the ...

The application of physics principles, methods, and techniques in clinical practice and research has revolutionized the entire medical science field to improve human health and overall wellbeing.

Cancer imaging is entering a phase where malignant cells no longer hide in murky grayscale but flare into view with surgical precision. Across operating rooms, scanners, and even blood tests, ...

It's a big day for astronomy (and all humans, really). The first image of a black hole has been released. It was created using the Event Horizon Telescope—a collaboration of radio telescopes around ...

After four centuries of advances, astronomers now capture the Sun’s swirling, dynamic features in stunning detail.