Latest Articles for Particle Physics

Belle II explores lepton universality and searches for new particles.

The ITS3 upgrade will enhance particle tracking and data collection at CERN.

Recent studies reveal key aspects of rapidity gaps in proton-lead collisions.

Researchers search for lepton-flavour violation in particle collisions at a major facility.

Exploring axions and their impact on dark matter and fundamental physics.

Explore the behavior of bosons and their fascinating phase transitions in quantum mechanics.

New insights suggest neutrinos might play a key role in dark matter.

An overview of fully-heavy multiquarks and their mass behavior.

Research on the Higgs boson reveals insights into mass and particle interactions.

Hybrid mesons could reshape our understanding of particle interactions.

Research on charmed meson decays reveals key information about particle interactions.

Exploring the role of heavy quarks in particle physics and DIS experiments.

Study examines how system size impacts phase transitions in high-energy physics.

Tiny neutrino masses suggest unexplored areas in particle physics.

This study reveals how magnetic fields affect heavy quark dynamics in quark-gluon plasma.

Exploring the link between chiral asymmetries, magnetic fields, and gravitational waves in the universe.

Research on axions could reshape our view of dark matter and fundamental physics.

A look into the MSSM and its implications for particle physics.

Study of diboson production reveals insights into fundamental interactions and potential new physics.

Scientists study quark matter's behavior under extreme conditions and the role of Debye mass.

Investigating heavy quarks and their role in quark-gluon plasma.

Examining the role of quaternions in quantum behavior and the Klein paradox.

This research examines how spin and OAM influence proton behavior.

Latest measurements from Belle II confirm lepton flavor universality, challenging recent findings.

Examining potential fifth forces arising from theoretical axions in particle physics.

Developing an autonomous trigger for detecting ultra-high-energy neutrinos.

Upcoming DIS experiments aim to enhance our knowledge of fundamental forces.

New methods simplify Skyrmion calculations, enhancing understanding of baryon interactions.

A look into how powerful lasers advance the study of light and matter interactions.

Investigating the role of axions in understanding dark matter's nature.

New experiments aim to deepen our understanding of neutrinos and their interactions.

New detectors aim to reveal links between ultralight bosonic fields and dark matter.

A deep dive into instantons and their role in quantum field theory.

Exploring the significance of weak decays and resonances in particle physics.

This study examines the properties of kaons and strangeonium using Regge phenomenology methods.

Research on cosmic rays' role in supernova remnant Cassiopeia A.

Research reveals Lambda(1405) may consist of two nearby resonances.

Gubser flow reveals insights into fluid behavior in extreme conditions.

Neutrinos play a key role in understanding supernova explosions and their dynamics.

A look into the internal structure of protons and the significance of GPDs.