Since their discovery by Wilhelm Roentgen in 1895, X-rays have become a staple of modern medical care, from imaging teeth and ...

Scientists may have found a new way to detect some of the universe's most mysterious objects, primordial black holes (PBHs), ...

US Nuclear Corp., together with its subsidiaries, develops, manufactures, and sells radiation detection and measuring equipment worldwide. The company operates through two segments, Optron and ...

Perspective Therapeutics, Inc. ("Perspective” or the "Company”) (NYSE AMERICAN: CATX), a radiopharmaceutical company pioneering advanced treatments for cancers throughout the body, announced two ...

Marie Curie worked with radioactive material with her bare hands. More than 100 years later, Sophie Hardach travels to Paris to trace the radioactive fingerprints she left behind.

Swiss Army knife of nuclear radiation detectors unveiled by Finnish scientists Finnish scientists just made radiation detection smarter, smaller, and more powerful. Updated: Apr 16, 2025 08:02 AM EST ...

The developed multi-purpose radiation detector can be compared to the Swiss Army knife, which packs a wide range of tools for many different uses into a small package. “The detector has versatile ...

Scientists have developed a new type of handheld multi-purpose radiation detector that comprehensively detects all types of ionizing radiation. The device can be used by industrial and medical ...

In a new breakthrough, a team of physicists from the U.S. has successfully demonstrated a new way to detect radioactive materials using carbon-dioxide lasers — from a distance.

A new technique pioneered by scientists at the University of Maryland uses lasers to create a “little ball of lightning” than can help detect radiation at least up to 10 meters from the source.

But if you need something more precise for professional uses or have to monitor environments for alpha radiation, you might want to look at more advanced models. The GQ GMC-600+, for example, includes ...

Detection limitations Radiation detection technology has limitations. A scene in the HBO miniseries “Chernobyl” illustrates the limitations of radiological monitors.