Latest Articles for Particle Physics

Exploring the role of the QGSJET-III model in high-energy particle interactions.

New insights into particle interactions emerge from non-Hermitian models.

Learn about the particle transport in pulsar wind nebulae.

A major solar event on October 28, 2021, impacts Earth and spacecraft.

Investigating bubble walls reveals insights into the early universe's structure and behavior.

Researching the link between giant molecular clouds, gamma-rays, and neutrinos in the Milky Way.

A look at leptogenesis, neutrinos, and the matter-antimatter imbalance.

A look into the behavior and interactions of Bose-Einstein condensates in various conditions.

Researchers study hidden particles formed during high-energy particle interactions.

A look at the ATLAS trigger system's upgrades and performance in 2022.

Researchers capture dynamic nuclear shapes using high-energy collisions, refining our understanding of nuclear structure.

Scientists investigate axion dark matter and its impact on the quantum Hall effect.

Delving into the properties and significance of doubly heavy baryons in particle physics.

The study of neutrinos unveils mysteries of particle physics and the universe.

A look into the complex dynamics of protons and neutrons.

A comparison of two methods to study heavy mesons and their structures.

Research advances in neutrino interactions are reshaping our understanding of fundamental physics.

Remembering the contributions of Steven Weinberg to particle physics and cosmology.

This article discusses new methods for calculating weak decays and addressing related challenges.

Exploring how four-quark scatterings deepen our knowledge of particle behavior.

Researchers examine particle collisions and the role of strings in their behavior.

A detailed look at the ECFA Higgs/Top/Electroweak Factory and its impact on particle physics.

The AMoRE-pilot phase sheds light on rare decay processes and neutrino properties.

Examining theories and challenges in understanding dark matter's nature and role in the universe.

A fresh perspective on the Hubble constant measurements using Generalized Rastall Gravity.

Exploring vacuum stability's significance in particle physics and implications for the universe.

Researching how new matter affects light elements formed after the big bang.

Scientists focus on muon colliders to improve Higgs boson property measurements.

Investigating wake forces can provide insights into dark matter properties and detection methods.

Exploring the properties and conditions during binary neutron star mergers.

Exploring the TRG method's impact on fermionic systems in quantum physics.

A look into the complexities of strong interactions and particle behavior.

Research into wakefields generated by particles in carbon nanotubes could advance particle acceleration technology.

A new method streamlines complex integral calculations in particle interactions.

Discover how machine learning enhances anomaly detection in particle physics research.

Explore the formation and evolution of the early universe and its fundamental particles.

Research reveals new findings on particle decay and its implications for physics.

A look into the processes and factors influencing particle decays in charmonium.

Research reveals key differences in particle behavior from the Sun.

Recent analysis casts doubt on antiproton excess as dark matter evidence.