Latest Articles for Particle Physics

Researchers seek new sources of CP violation in Higgs boson interactions.

A model reveals insights into energy and charge in heavy ion collisions.

Exploring the complexities of non-invertible duality symmetries in quantum field theories.

Exploring the link between SU(5) GUTs and cosmic inflation, addressing significant challenges.

A look into axion-like particles and their potential significance in physics.

A simpler approach promises efficient calculations of magnetic moments in particle physics.

Examining parity violation during the universe's inflation phase.

A novel approach improves understanding of charged particle scattering interactions.

Examining the role of fracture functions and higher-twist effects in particle interactions.

An overview of how string theory addresses particle types and their limits.

An overview of tensor mesons and their significance in particle physics.

Exploring the role of gluons in forming quarkonium states in particle physics.

Research sheds light on particle interactions involving leptons and jets at high energy collisions.

Study reveals how heat impacts spin charmed baryons and their states.

Examining how magnetic fields influence particle interactions through the Yukawa potential.

New technique enhances detection of neutrinos from nuclear reactors.

Examining how magnetic fields and quark mass affect pion properties.

Examining Higgs models reveals insights into fundamental particles and dark matter interactions.

This article examines Bose glasses and their fascinating properties in condensed matter physics.

The ARA project aims to detect ultrahigh energy neutrinos from cosmic events.

MACE telescope aims to detect gamma rays linked to dark matter.

A look into the MiniBooNE anomaly and its implications for neutrino physics.

New methods improve calculations in high-energy particle interactions.

New method SBUnfold enhances particle data analysis accuracy using machine learning.

Exploring how Q-balls influence the formation of gravitational waves in the universe.

Research on gluons and their role in matter through heavy quarkonium particles.

A look into the Witten index and its role in supersymmetric theories.

Researching high-energy particles to enhance gamma-ray detection.

Studying gravitational waves from electroweak phase transitions offers insight into early universe physics.

A look into dark matter's behavior amidst cosmic changes.

Research on neutrinos reveals their ability to change types, challenging our understanding of physics.

Research uncovers potential solutions to Cabibbo angle anomaly involving sterile neutrinos.

The SR-PPAC enhances heavy-ion beam detection with high efficiency and precision.

A look at the impact of radiation on particle interactions in colliders.

Research on leptophilic gauge bosons aims to uncover new physics.

Scientists aim to identify the origins of high-energy neutrinos through advanced detection methods.

Research reveals mechanisms behind cosmic ray acceleration in astrophysical shocks.

Exploring the links between wormholes, neutrinos, and gamma-ray bursts.

Exploring the connections between sterile neutrinos and dark matter in modern physics.

A new approach enhances uncertainty estimation for hadronization in particle physics experiments.