Researchers at the University of Rochester, working with the CMS Collaboration at CERN, have made…
Browsing: Particle Physics
Particle physics is the branch of physics that studies the fundamental building blocks of matter and the forces that govern their interactions. It seeks to understand the universe at its most basic level, probing particles like quarks, leptons, and bosons—most famously including the Higgs boson, discovered at CERN’s Large Hadron Collider. These particles are described by the Standard Model, a powerful but incomplete framework that researchers continually test and refine. Ongoing experiments aim to explore unanswered questions such as the nature of dark matter, the imbalance between matter and antimatter, and the unification of fundamental forces. Particle physics sits at the frontier of human knowledge, helping to reveal the underlying structure of reality itself.
Researchers have used quantum sensors to explore new particle interactions at microscale distances, presenting groundbreaking…
New simulations show that neutrinos created during these cataclysmic neutron star collisions are briefly out…
What Are Photons? Photons are the smallest possible particles of electromagnetic energy and therefore also…
With this measurement, the Large Hadron Collider again demonstrated its ability to provide very high-precision…
Researchers have confirmed that quantum entanglement persists between top quarks, the heaviest known fundamental particles.…
IceCube Neutrino Observatory’s recent detection of high-energy tau neutrinos, previously only hinted at, marks a…
Physicists at TU Graz have determined that certain molecules can be stimulated by pulses of…
An international team of scientists has developed a novel way to experimentally produce plasma ‘fireballs’…
Two decades after the first proof of photon entanglement, the ATLAS and CMS experiments have…
Researchers have innovated a 2D method for producing Majorana particles, aiming to improve quantum computing…
In the first quintillionth of a second, the universe may have sprouted microscopic black holes…
A simple concept of decay and fission of “magnetic quivers” helps to clarify complex quantum…
Theoretical physicists and experimentalists launched precision measurements on aluminum-22 to explore its proton halo, blending…
New research combining experimental and computational approaches provides deeper insights into proton spin contributions from…
Data from heavy ion collisions provide new insights into the electromagnetic properties of quark-gluon plasma…
Researchers demonstrated a new method of boson sampling using ultracold atoms, marking a significant advancement…
A new study unveils the existence of a tetraquark composed of beauty and charm quarks,…