Latest Articles for Particle Physics

Investigating top quark production reveals insights into fundamental particle interactions.

Examining how magnetic fields influence phase transitions in quark-gluon plasma.

Exploring new methods to study strong particle interactions in nuclear physics.

Recent methods in QFT tackle key challenges, offering fresh insights into particle physics.

Research aims to understand unique tetraquarks produced through light interactions.

Researching unique particles with two heavy quarks enhances knowledge of particle interactions.

Learn how QCD axions may explain dark matter and influence the universe's evolution.

Examining how magnetic fields influence particle formation near black holes.

A look into the intriguing relationship between kinks and fermions in physics.

Research sheds light on complex particle decay behaviors through precise analysis.

Research on neutrino oscillation and Lorentz invariance violation sheds light on fundamental physics.

Exploring a new framework for dark matter and neutrino mass.

Exploring defects, boundary conditions, and symmetry in theoretical physics.

Studying neutron stars may reveal secrets about the early universe's neutrinos.

Exploring the relationship between neutron stars and elusive neutrinos.

Exploring the roles of hyperons and neutrinos in supernova explosions.

An overview of flux vacua and their significance in string theory.

Investigating heavy neutrinos could change our understanding of the universe.

A study on neutron matter behavior under varying densities and conditions.

Research explores how entanglement entropy reveals proton behavior in high-energy collisions.

Examining the intriguing state of matter at extreme conditions.

EggNet enhances particle tracking accuracy using evolving graph-based techniques.

Research investigates new particles affecting proton scattering measurements.

Research advances our understanding of neutrinos and their role in the universe.

Scientists study boosted objects using advanced technology and machine learning at the LHC.

This research delves into gluon interactions in high-energy collisions.

CERN upgrades beam stoppers to boost safety and efficiency for high-energy particle beams.

Learn about the processes and significance of Higgs boson production at colliders.

Explore the concept of bosonic holes and their implications in quantum systems.

Research suggests pion condensation may occur in cosmic events.

Liquid scintillators are essential for detecting ionizing radiation and particles like neutrinos.

A look into cosmic inflation, gravitational waves, and their role in universe evolution.

Exploring the complex interactions of particles using advanced femtoscopy techniques.

Research provides new data on the rare isotope Es, shedding light on its decay characteristics.

Research reveals how the Cygnus bubble influences cosmic rays reaching Earth.

Exploring the speed of virtual particles and its implications for physics.

Research links nuclear matrix elements to phase shifts in neutrinoless double-beta decay.

This study examines properties of heavy-light mesons using lattice QCD methods.

SLAMS influence high-energy particle acceleration in cosmic environments.

Exploring how natural supersymmetry aims to clarify particle physics and the Higgs boson.