Everything we visualize about space, including stars, planets, gases, and even galaxies, make up just a small fraction of the ...

In space, energetic neutrinos are usually paired with energetic gamma rays. Galaxy NGC 1068, however, emits strong neutrinos and weak gamma rays, which presents a puzzle for scientists to solve. A new ...

Buried deep in the ice in the Antarctic are "eyes" that can see elementary particles called neutrinos, and what they've ...

New subatomic particle discovery may challenge the Standard Model and explain why matter dominates over antimatter in the ...

Quasicrystals, exotic states of matter characterized by an ordered structure with non-repeating spatial patterns, have been the focus of numerous recent physics studies due to their unique ...

Neutrinos are subatomic particles with nearly zero mass while also carrying no charge. The particle interacts very weakly with matter, allowing it to travel to large amounts of matter without ...

QKD exploits a phenomenon known as quantum entanglement. This refers to the way two subatomic particles’ characteristics can be related, even when separated by a vast distance. By measuring data ...

Welcome to the world of quanta, where nothing seems logical, but everything appears possible. A new era is dawning with quantum technologies helping us to better understand and order our world.

This is an extremely hot and dense soup of subatomic particles that includes deconfined quarks and gluons. This plasma is believed to have filled the early universe microseconds after the Big Bang.

Srivastava and his team used quantum nuclear theory—which uses quantum mechanics to understand the behaviour of subatomic particles—and calculated that protons on the surface of Sagittarius A* reach ...

These elusive “ghost particles” provide a rare glimpse into the universe’s most extreme events, potentially originating from supermassive black holes or cataclysmic supernovae. The detection of this ...

The hypothetical subatomic particle has long eluded scientists ... But efforts to spot the particles have been unsuccessful. The newfound axion imitators are the next best thing.