Scientists study axion-like particles to explain matter's dominance over antimatter.
― 6 min read
Examining dilepton production reveals insights into quark-gluon plasma behavior.
― 5 min read
Research into dark matter interactions reveals potential connections to neutrinos.
― 5 min read
A new experiment aims to find axions and advance dark matter research.
― 5 min read
CLIC aims to find leptophilic bosons, probing beyond current physics limits.
― 5 min read
Exploring how dark matter is trapped by different celestial objects.
― 8 min read
Improvements in calibrating top quark mass using advanced Monte Carlo event generators.
― 5 min read
Uncovering the elusive nature of dark matter and its cosmic implications.
― 6 min read
Exploring charm loops helps us understand particle decay processes and their implications.
― 6 min read
Researchers analyze lepton-nucleus scattering to deepen insights into nuclear interactions.
― 7 min read
New methods improve efficiency in complex integral computations for particle physics.
― 5 min read
This study examines rare decays of axial-vector mesons in particle physics.
― 4 min read
Neutrinos are key to understanding explosive cosmic phenomena like supernovae and neutron star mergers.
― 5 min read
A deep look into the electromagnetic properties of baryons and their complex structures.
― 5 min read
Researchers are advancing detection techniques to study dark matter interactions.
― 5 min read
Doubly charmed baryons are key to understanding strong interactions in particle physics.
― 4 min read
New measurements challenge the Standard Model, hinting at unknown physics.
― 6 min read
This article explores Higgs boson studies and gauge-Higgs unification in particle physics.
― 5 min read
A closer look at dark matter, primordial black holes, and gravitational waves.
― 4 min read
New insights into gravitational waves reveal their origins and significance in cosmic history.
― 4 min read
Examining the role of perturbations in cosmic evolution and inflation.
― 5 min read
This article examines baryon behavior and correlations in high-energy particle collisions.
― 7 min read
A machine learning method enhances the reconstruction of particle events in high-energy physics.
― 6 min read
Exploring the significance and complexities of top quark decay in fundamental physics.
― 5 min read
This article examines the intricacies of Starobinsky inflation and its stability concerns.
― 5 min read
Axions may be key to solving dark matter and strong CP problems.
― 4 min read
Updated hadron lists improve particle physics research and heavy-ion collision models.
― 5 min read
A look into the unique energy patterns of three interacting particles.
― 4 min read
Research reveals how heavy quarks differ in particle production from lighter quarks.
― 5 min read
A look into the role of phase transitions in the universe's evolution.
― 5 min read
Using machine learning to classify jets in particle collisions.
― 6 min read
Investigating how mass is distributed in helium nuclei.
― 4 min read
Gluons play a vital role in understanding atomic nuclei.
― 5 min read
Scientists investigate unexpected results from the MiniBooNE experiment, exploring potential new particles.
― 5 min read
Upcoming experiments will enhance knowledge of protons and neutrons through neutrino interactions.
― 5 min read
Investigating the interplay of holography, gravity, and quantum mechanics in linear dilaton spacetimes.
― 6 min read
Examining the unique properties and behaviors of neutron star matter.
― 6 min read
Belle II results suggest potential new physics beyond current theories.
― 5 min read
Research highlights unusual hadron states and their interactions in particle physics.
― 5 min read
New POWHEG generator enhances deep inelastic scattering simulations for particle physics research.
― 5 min read