Latest Articles for Particle Physics

A closer look at Majorana zero modes and their role in quantum computing.

Investigating Dark Matter through Higgs boson and missing energy at the LHC.

Research reveals how solar activity accelerates cosmic rays into space.

Exploring how black holes can gain electric charge in plasma environments.

Investigating local currents in varying magnetic fields during heavy-ion collisions.

This article explores how gravitational waves relate to particle physics and cosmic events.

Discover the mysteries behind dark matter and its significance in the universe.

Researchers uncover surprising insights into small particle collisions and quark-gluon plasma formation.

New techniques streamline the evaluation of complex Feynman integrals using supercomputers.

Examining the role of Majorana states in quantum computing applications.

The BeEST experiment seeks evidence of sterile neutrinos through advanced techniques and analysis.

Examining jet formation and its significance in particle physics research.

This article explores Type I and Type II supergravity, emphasizing their symmetries and scalars.

Study reveals complex nature of dark matter using Milky Way's satellite galaxies.

Gradient flow renormalisation improves calculations for meson properties and lifetimes.

A look into solar wind behavior and its effects on space science.

Research calculates meson masses to enhance understanding of particle interactions.

This study reveals how proton bunches change in plasma and how we measure them.

A study revealing the search for supersymmetry particles using advanced techniques.

Transversity offers insights into hadron structure and quark contributions.

New study integrates three-body forces to improve understanding of light hypernuclei.

Research on charged particles from proton-proton and lead-lead collisions reveals new insights.

Exploring mixed quantum states and the concept of -arability in entanglement research.

Studying elliptic flow reveals insights into quark-gluon plasma behavior.

Research into QGP reveals key interactions of quarks and gluons.

Research on moduli stabilization reveals links to dark matter and fundamental forces.

Researchers explore diamond's potential in detecting elusive low-mass dark matter.

ALICE's new Inner Tracking System improves particle tracking and data quality.

NA61/SHINE explores particle interactions, revealing new findings about charm quarks and kaon production.

Research aims to uncover possible light scalar particles alongside the Higgs boson.

Studying particle interactions in high-energy heavy-ion collisions reveals fundamental forces.

Research into low mass scalars offers insights into fundamental particles and forces.

New designs in calorimeters promise improved measurements in particle physics experiments.

Scientists explore the Type-I Two-Higgs Doublet Model for new discoveries.

Investigating proton decay to understand fundamental physics and the universe.

A look into Higgs boson pair production and its significance in particle physics.

Studying sound speed in quark-gluon plasma reveals insights about the early universe.

New research highlights complexities in measuring neutrino mixing angles due to Lorentz invariance violation.

Researchers investigate a lighter Higgs boson using data from the Large Hadron Collider.

DAMIC-M aims to find dark matter using advanced technology and sensitive detectors.