Plasma is a state of matter that emerges when a gas is heated to sufficiently high temperatures, prompting some electrons to ...

Physicists are eyeing charged gravitinos—ultra-heavy, stable particles from supergravity theory—as possible Dark Matter ...

Particle simulations reveal more raindrops, packed more tightly together, lead to earlier streamer discharges in high-voltage DC transmission lines.

Structural and computational approaches uncover the molecular basis for dimerization, open-closed conformational transitions, and the dynamic behavior of the human angiotensin-I converting enzyme ...

The formation of Mercury remains an unsolved mystery. The planet closest to the sun has a disproportionately large metallic ...

Particle dynamics approach offers faster and more comprehensive analysis of spiral defect chaotic systems and interventions ...

Tunable red to green emissions in upconversion nanoparticles allow precise identification of single particles, enabling ...

New simulations show that neutrino flavor transformations change both the composition and the signals left behind after neutron star collisions. When two neutron stars collide and merge, the result is ...

Mercury is tiny, barely bigger than the Moon. Its metallic core makes up 70% of the planet’s mass, vastly exceeding Earth’s ...

Superheavy charged gravitinos may be the long-sought answer to dark matter. Dark Matter remains one of the biggest mysteries ...

When two neutron stars collide, they unleash some of the most powerful forces in the universe, creating ripples in spacetime, ...

Researchers showed that particle deformability governs focusing in microfluidics, leading to a new model that could advance ...