Molecular collision dynamics investigates how atoms and molecules interact during collisions, a process central to chemical reactivity and energy transfer. At the heart of these studies are potential ...

An innovative algorithm for detecting collisions of high-speed particles within nuclear fusion reactors has been developed, inspired by technologies used to determine whether bullets hit targets in ...

Relativistic heavy-ion collisions produce a high density of partons with strong final-state interactions and lead to the formation of the quark-gluon plasma (QGP). Experimental evidence at the ...

An international team of physicists has studied how particles are produced in high-energy electron–proton collisions through the lens of entanglement entropy Entanglement entropy has emerged as a new ...

Researchers have uncovered a counterintuitive phenomenon in collision dynamics: high-speed particles bounce back from wet ...

When oil and gas executives first began using the phrase “all of the above” more than a decade ago, it was their pitch that climate advocates and sympathetic policymakers should keep natural gas ...

Inside high-energy proton collisions, quarks and gluons briefly form a dense, boiling state before cooling into ordinary particles. Researchers expected this transition to change how disordered the ...

The illustration depicts an intense laser field (red wave) interacting with Deuterium and Tritium nuclei. By modifying the collision energy distribution, the laser field facilitates quantum tunneling ...