The BASE team at CERN has enhanced antiproton cooling techniques, allowing quicker and more precise…
Browsing: Antimatter
Antimatter is a substance composed of antiparticles, which have the same mass as particles of ordinary matter but opposite charges, as well as other particle properties like spin and magnetic moment. When a particle and its antiparticle meet, they annihilate each other, releasing energy in the form of radiation, typically gamma rays. This annihilation process makes antimatter extremely interesting both theoretically and practically. It has important applications in medical imaging, specifically in positron emission tomography (PET) scans, where a positron (the antiparticle of the electron) is emitted and subsequently annihilates with an electron, helping to produce detailed images of internal bodily structures. Theoretical and experimental studies of antimatter also provide significant insights into the fundamental symmetries of the universe and help test predictions of the Standard Model of particle physics. The production and study of antimatter are challenging due to its tendency to annihilate upon contact with matter, requiring sophisticated techniques to create and trap antimatter particles without them coming into contact with normal matter.
Researchers successfully cooled positronium atoms, significantly impacting antimatter research and enabling new experiments in quantum…
Landmark CERN experiment may help explain why antimatter seemingly lost out in the early universe.…
Experiment at CERN eliminates the possibility that antimatter is repulsed by gravity. CERN’s ALPHA collaboration…
A recent study, which holds significant implications for addressing one of the most important unresolved…
JILA physicists make record-breaking measurement of a key electron property. In the first moments of…
Parity symmetry violation detected in the orientation of galactic formations could explain the abundance of…
Physicists invoke the cosmological collider to demonstrate why matter, not antimatter, dominates the universe. The universe…
Are there anti-stars around us? Answer from the Fermi Gamma-ray Space Telescope. What if some…
A team of scientists at CERN led by MPQ physicist Masaki Hori discovered that a…
The device hopes to answer the ultimate existential questions. The final piece of an all-new…
Recently at the Quark Matter conference and before that at the Rencontres de Moriond conference,…
A city-sized collapsed star has generated a beam of matter and antimatter that stretches for…
The result may open doors to several lines of research in particle physics and beyond.…
New results from the LHCb experiment on CP asymmetry in charmless three-body charged B meson…
Astronomers have imaged a beam of matter and antimatter that is 40 trillion miles long…
The University of Manchester team observed the Schwinger effect in graphene, a process thought to…
Quarks and Antiquarks at High Momentum Shake the Foundations of Visible Matter Jefferson Lab and…