Latest Articles for Particle Physics

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.

Researchers aim to find charged Higgs bosons to enhance particle physics understanding.

A look at spin chains and their role in quantum behavior.

The Mini FoCal prototype enhances particle collision research at the Large Hadron Collider.

Exploring quantum algorithms to advance understanding of particle interactions and thermal states.

A look into the Drell-Yan process and the role of NLP corrections.

Research explores links between quantum state analysis methods to deepen understanding.

A closer look at the muon and its magnetic properties.

Study reveals properties of scalar mesons within a theoretical framework.

Research on light scalar mesons continues to uncover their complex nature and interactions.

FASTPIX project develops highly precise particle detection sensor for future physics experiments.

Scientists investigate hidden photon dark matter using innovative experimental techniques.

Exploring the role of supersymmetry in fundamental physics and its current challenges.

Radon gas plays a key role in calibrating liquid xenon detectors for rare event detection.

An exploration of particle classification and the introduction of transtatistics.

Research on scalar mesons reveals complex decay processes and fundamental interactions.

A look into the potential of plasma wakefields for compact particle accelerators.

Recent findings shed light on the properties and behaviors of singly charmed baryons.

Investigating how sedenion algebras may explain the three generations of fermions.

Exploring the relationship between pion behavior and gauge theories in particle physics.

Study reveals how impurities behave in a tilted lattice of particles.

Researchers develop new collider to study elusive axion-like particles in physics.

Examining how particles are bound together through Effective String Theory and related models.

Research sheds light on density variations in quark-gluon plasma under magnetic fields.

Examining the role of quantum fluctuations in shaping the universe's evolution and structure.

New approach improves predictive accuracy for studying early Universe conditions.

Researchers analyze proton collisions for evidence of dark photons linked to dark matter.

Researchers use muon experiments to investigate potential new particles in physics.

Researching particle pairs in high-energy collisions at the Large Hadron Collider.

A study of the Dragonfly nebula reveals insights into pulsar behavior and particle acceleration.

A study on quantum chaos through out-of-time-order correlators in the sparse SYK model.

Dark matter's significance in understanding the universe's formation and evolution.

Research reveals surprising interactions between massless particles and magnetic monopoles.

Research into HNLs opens new avenues in understanding neutrinos and particle physics.

A new approach improves accuracy in identifying jet flavours during particle experiments.

Gravitational waves could reveal secrets from the universe's early moments.

Research on neutrinoless double beta decay reveals insights into neutrinos and atomic processes.

Researchers reveal key findings on SU(3) gauge theory and fermions.