Latest Articles for Particle Physics

Recent findings reveal complex behavior of cosmic ray protons around the 10 TeV mark.

Discover how machine learning helps identify symmetries in physical systems.

A study of how external influences impact entanglement in Ising chains.

Research at CEPC aims to uncover insights into quantum entanglement through Higgs boson decay.

A look into cosmic rays and their significance in understanding the universe.

Exploring the potential of Majorana zero modes in enhancing quantum technologies.

This study explores how chiral condensates aid in the cosmic bounce process.

Investigating how changes in the CMB impact our view of cosmic rays.

Exploring how non-local effects reshape our understanding of quantum electrodynamics.

Research on axions and gravitational waves could reveal secrets of the universe.

Study of Higgs production through particle collisions and jets reveals new insights.

A fresh approach to particle production predictions at the LHC's forward region.

Learn how Ginsparg-Wilson relations impact the behavior of fermions in physics.

Researching axionlike particles reveals new insights into dark matter.

Research reveals connections between event shape and particle production in proton collisions.

Learn how jet energy loss reveals secrets about quark-gluon plasma.

This article examines hadron production and the role of fragmentation functions.

A look into how asymptotic safety could reshape our understanding of high-energy physics.

Investigating how quantum field theory impacts computational models and the Church-Turing thesis.

Study reveals how neutron spin affects absorption in lanthanum.

An overview of wavepackets related to relativistic particles in quantum mechanics.

An overview of Z boson production and decay at the LHC.

A look into dark matter's nature and its interactions in the universe.

A look at enhancing ROOT with SYCL for efficient data analysis.

This study explores detecting axions through superfluid helium-3's nuclear spins.

Scientists investigate surprising findings suggesting potential new physics beyond the Standard Model.

Research reveals patterns in high-energy particle collisions and their interactions.

ATLAS is set to measure high-energy neutrinos from supernova explosions.

Explore the links between gravity, particle interactions, and theoretical frameworks.

Investigating the transformation of nuclear matter and quark matter in neutron stars.

Research on neutrinos at the LHC opens new insights in particle physics.

A machine learning approach improves data quality monitoring in high-energy physics experiments.

A look into the unique properties of neutron stars and their internal composition.

Researchers investigate Asymptotic Grand Unification Theories for fundamental physics.

Examining GW scalar interactions and their effects on RS model phase transitions.

Scientists seek to understand the fate of magnetic monopoles in the Universe.

Research investigates CP violation in charmed decays to understand matter-antimatter imbalance.

Examining the journey of particle physics and future research directions.

A look at how quarks gain mass in Quantum Chromodynamics.

Exploring the dynamics of nuclear collisions and their impact on matter behavior.