X‐ray imaging and microscopy techniques have undergone substantial evolution over recent decades, providing unparalleled access to the internal structure of materials and biological samples with ...

According to a study published in Science, researchers have created a new record-breaking 3D imaging tool. The tool employs high-energy X-rays to reveal or “visualize” the internal structure of ...

Every plant, animal, and person is a rich microcosm of tiny, specialized cells. These cells are worlds unto themselves, each with their own unique parts and processes that elude the naked eye. Being ...

Researchers have pioneered a new technique at the Swiss Light Source SLS called X-ray linear dichroic orientation tomography, which probes the orientation of a material's building blocks at the ...

An X-ray nanoprobe consists of several essential components that work together to achieve high-resolution imaging and analysis: Scanning XRF microscopy maps the elemental distribution in a sample by ...

Scientists use a multimodal approach that combines hard X-ray computed tomography and X-ray fluorescence imaging to see the structure and chemical processes inside of a single cell. Every plant, ...

A team of Johns Hopkins researchers is using an innovative X-ray imaging approach to reveal how compression reshapes the tiny spaces and stresses within sandstone—findings that could predict how this ...

The IAEA has released its first guidelines on quality assurance and optimization for fluoroscopically guided interventional procedures – minimally invasive medical techniques used to diagnose and ...

New X-ray imaging method maps sound waves, shocks, bubbles and cooling gas in galaxy clusters, revealing stronger black hole feedback in groups.

X‐ray imaging techniques have evolved substantially over recent decades, transcending traditional transmission radiography to incorporate diffraction, scattering and computed modalities. These ...