New insights into dark matter emerge as researchers explore the ‘dark photon’ hypothesis, challenging the…
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.
With up to a million X-ray flashes per second, 8,000 times more than its predecessor,…
Elusive fundamental particles called neutrinos are predicted to interact unexpectedly with photons under extreme conditions.…
Project 8 Marks a Major Milestone in Its Quest To Measure Neutrino Mass The humble…
A new precision measurement of the electron’s dipole moment may explain the matter-antimatter imbalance. A…
For the first time, scientists observed oxygen-13 undergoing a unique radioactive decay, producing three helium…
Caltech researchers simulated solar flares, discovering that their structures resemble intertwined ropes. When these ‘ropes’…
67 years after its theoretical prediction by David Pines, the elusive “demon” particle, a massless…
New Study Offers Hope to a Long-Standing Scientific Problem In a groundbreaking study, researchers have…
Fluid dynamics simulations reveal how detrimental plastic particles accumulate inside the nose and at the…
Researchers show it’s possible to make photons that cross paths interact, paving the way for…
New Study Solves Mystery on Insulator-to-Metal Transition A study explored insulator-to-metal transitions, uncovering discrepancies in…
Findings at Fermilab show discrepancy between theory and experiment, which may lead to new physics…
Comparisons between optical clocks at PTB bolster the quest to detect potential interactions between ultralight…
Thermal field theory seeks to explain many-body dynamics at non-zero temperatures not considered in conventional…
CMS presents results of searches for long-lived neutral particles. The CMS collaboration at CERN’s Large…
New result from the ATLAS experiment at CERN reaches the unprecedented precision of 0.09%. The…
A study conducted by the ATLAS experiment at the Large Hadron Accelerator has gained insights…