The new Central Neutron Detector at Thomas Jefferson National Accelerator Facility has successfully detected neutrons in ...

Recent advancements at the Thomas Jefferson National Accelerator Facility have enabled physicists to explore the internal ...

James Chadwick’s discovery of the neutron in 1932 opened a new era in physics. Today, neutron detection is widely used in fundamental physics (especially in the measurement of nuclear cross-sections ...

Extreme stars may possess mountains similar to those found on moons in our solar system, potentially creating detectable ...

Gamma rays emerging from neutron stars at the hearts of supernova explosions could solve the mystery of dark matter — in just ...

The nature of dark matter has puzzled astronomers since discovering that 85% of the universe's matter is invisible through ...

Neutron Bragg-dip imaging effectively revealed grain boundaries and crystal imperfections, while the time-of-flight method provided spatial variation in carrier mobility. Image Credit: Andrei Armiagov ...

Energy transition Dark matter may have been created after the Big Bang, something that could soon be tested by gravitational ...

The PRIMA space telescope would observe the cosmos in far-infrared light, while AXIS would be an orbiting X-ray detector.

New research reports the most powerful cosmic rays ever detected. Because the rays lose energy as they travel through space, ...

A team of astronomers from the Curtin University node of the International Centre for Radio Astronomy Research (ICRAR) has ...