Latest Articles for Particle Physics

Research reveals potential TeV halos linked to pulsars, enhancing our understanding of gamma-ray emissions.

Exploring axions and axion-like particles in relation to fundamental physics.

Exploring the behavior of neutrinos and their implications in astrophysics.

An overview of flavor structures in particle physics through two key models.

Exploring the creation of particle pairs from vacuum under strong electric fields.

Examining how loop quantum gravity influences charged leptons and their electromagnetic properties.

Analyzing dineutrinos from proton collisions to explore new physics interactions.

This study reveals the complexities of CP violation in particle physics.

Research focuses on heavy particles decaying into Higgs bosons at the LHC.

Study measures particle interactions and searches for exotic states in collisions.

Exploring the association between pulsars and very high energy gamma ray emissions.

Research reveals new model for studying dark matter interactions.

Scientists discuss recent findings on meson decays and lepton behavior.

An overview of how quarks and gluons interact in particle physics.

A look at the roles of pions and rhos in particle interactions.

Understanding the impact of radiative effects on SIDIS experiments.

Examining Higgs boson decay into three particles and their quantum entanglement.

Examining metric-affine gravity and PNGB for understanding cosmic inflation.

Scientists investigate particle and entropy movement in fermionic superfluids far from equilibrium.

A look into soft quark functions and their role in particle interactions.

Scientists investigate lepton flavor violation for insights into new physics.

Study reveals first observations of semileptonic decays involving charm mesons.

Research on bosonic circuits enhances understanding and simulation of quantum computing.

Insights into light-electron interactions at high energies and strong fields.

Scientists investigate dark matter's hidden sector and its impact on the universe.

This article explores CP violation and the role of invariants in particle physics.

Explore the role of quarkonia in understanding fundamental forces of nature.

Discover the unique properties of hybrid mesons and their implications in particle physics.

Investigating how massless particles behave at boundaries in string theory.

Quantum backflow reveals unique behaviors of particles in confined spaces.

Examining coherent synchrotron radiation's impact on electron beam quality.

Scientists study anyon behavior using a graphene-based interferometer.

Study measures how muon neutrinos interact with argon, advancing our understanding of particle physics.

Scientists investigate superfluid helium as a way to detect Majorana fermions.

Examining the role of entanglement in nuclear reactions and atomic structure.

Exploring a unique theory in particle physics that connects fundamental forces without supersymmetry.

Investigating quarkonium from proton collisions reveals details about gluon behavior.

Exploring the invisible mass shaping our universe.

Exploring the significance of electric dipole moments in particle physics and symmetry violations.

This article covers the use of deep neural networks to predict meson properties.