Why matter dominates over antimatter in our universe has long been a major cosmic mystery to physicists. A new finding by the ...

New approach could aid “multi-messenger” astronomy by quickly locating sources of gravitational waves emitted during these ...

Studies that explore how the denser sections of atoms, known as atomic nuclei, interact with neutrons (i.e., particles with ...

Do we live in a supernova graveyard? A team of researchers proposes that 10 million years ago two giant neutron stars crashed ...

Scientists at CERN have made a groundbreaking discovery that deepens our understanding of why the Universe is made of matter ...

Activation imaging using neutron-irradiated gold nanoparticles enables visualization of drug distribution in mice for several ...

Through the weak nuclear force, one quark flavor can transmute into another. However, current data and theory indicate that ...

A cosmic enigma, ASKAP J1839-0756, a slow-spinning neutron star discovered using the ASKAP radio telescope, is challenging ...

Physicists have measured a nuclear reaction that can occur in neutron star collisions, providing direct experimental data for ...

When massive stars explode as supernovae, they can leave behind neutron stars. Other than black holes, these are the densest ...

Neural network deciphers gravitational waves from merging neutron stars in a second Machine learning method could revolutionize multi-messenger astronomy Date: March 5, 2025 Source: Max Planck ...

Physicists have measured a nuclear reaction that can occur in neutron star collisions, providing direct experimental data for a process that had previously only been theorised. The study provides new ...