Latest Articles for Particle Physics

This article discusses the role of light quarks in photon production and electroweak corrections.

Scientists are using diffusion models to enhance anomaly detection in particle physics experiments.

The EIC will study quarks and gluons, revealing secrets of matter formation.

New insights into Higgs properties and Dark Matter interactions are revealed.

Recent research suggests new ways dark matter may form in the universe.

NOvA experiment reveals key findings on neutrino interactions and oscillations.

Researching neutrino behavior helps uncover fundamental physics and cosmic mysteries.

A look into how the aether field affects electromagnetic dynamics at various temperatures.

A look into synchrotron radiation and its implications in physics.

A look into conformal anomaly's role in physics and cosmology.

Recent findings suggest a potential new particle, raising questions in particle physics.

Scientists aim to measure how the Higgs boson decays into other particles.

Exploring the significance of EDMs in charm baryons and their connection to CP violation.

Researchers investigate new particles through high-energy collisions at the Large Hadron Collider.

Examining how magnetic fields influence QCD matter in high-energy collisions.

A look into the mysteries of dark energy and its role in the universe.

Exploring the production and decay of unique baryons in particle physics.

Automating the tuning process improves performance in complex systems like particle accelerators.

Julia facilitates efficient data analysis in high energy physics through high performance and ease of use.

Examining new insights into pion-nucleus interactions and their significance in physics.

Exploring glueballs and the pomeron in understanding strong interactions.

Researching how parity violation affects proton structure and fundamental physics.

Exploring how majorons may generate gravitational waves in the early universe.

A look into skyrmions and their significance in understanding nuclear matter and neutron stars.

A new method enhances photon energy reconstruction in particle experiments.

Exploring the complexities of learning free fermion distributions in quantum mechanics.

Examining the production and significance of QCD axions in understanding dark matter.

This article explores the Higgs field's role in inflation and early Universe theories.

Examining predictions for Higgs boson rapidity distribution via bottom quark annihilation.

Discovering high-frequency gravitational waves could reveal secrets of the early universe.

A study of heavy quarkonium's response to extreme conditions in quark-gluon plasma.

A look at BRST symmetry in Galilean and Carrollian Yang-Mills theories.

This article explores how chiral helical structures stabilize under pressure changes.

Investigating neutrino types using gravitational waves reveals deeper insights into particle physics.

Examining how gravity affects particles in an expanding universe.

This research explores the unique properties of P-wave bottom baryons and their internal structures.

Future experiments aim to explore particles beyond the Standard Model.

Examining gauge theories' implications on black hole entropy through innovative frameworks.

Research into charmed hadron decays may reveal unknown particles and physics.

This article explores neutrinos' impacts on supernovae and neutron star mergers.