Latest Articles for Particle Physics

This article discusses innovative approaches to study thermodynamics in quantum chromodynamics.

New experiments shed light on particle decays and interactions.

A look at how gas particles interact and their implications.

This article discusses challenges in calculating three-loop form factors in particle physics.

New methods improve efficiency in particle physics calculations.

Exploring shadow formalism's role in simplifying calculations in supersymmetric conformal field theories.

A look into the DKP equation and particle spin interactions.

PandaX-4T searches for new particles to explain cosmic mysteries.

A look at negative flow patterns of mesons in particle collisions.

Exploring pseudo-Hermitian systems and their impact on particle physics and cosmology.

Exploring the connection between nuclear fission and quantum entanglement.

Scientists pursue the synthesis of element 119, uncovering new aspects of nuclear physics.

Exploring the Casimir effect and its implications across various particle systems.

A new theory links dark matter and dark energy through fermion interactions.

Examining axions and their production mechanisms for understanding dark matter.

A look into the mysteries and evolution of our universe.

Study reveals how axion clouds affect black hole mergers and gravitational wave signatures.

Exploring how defects influence entanglement in quantum systems.

A look into cosmic birefringence, ultralight axion-like particles, and their implications.

Studying double and triple Higgs production reveals essential details about the early universe.

A closer look at hadronic vacuum polarisation and its role in particle physics.

A fresh method improves analysis of Higgs bosons in particle physics.

Research on dark matter and dwarf spheroidal galaxies reveals crucial insights.

PETRA IV aims to enhance x-ray beam quality for diverse scientific research.

A new emulator improves accuracy and efficiency in studying nuclear reactions.

Scientists study particle behavior under extreme collision conditions.

Scientists enhance neutrino telescope data quality using super-resolution and deep learning.

New methods enhance efficiency in solving particle transport equations.

New findings suggest lower values for Coulomb string tension in QCD.

Research focuses on beam dynamics and performance improvements for the Fermilab Booster.

Examining quasiparticles during cosmic inflation reveals insights into the universe's early conditions.

Investigating how early universe conditions influence dark matter creation.

Exploring unexpected weak interactions in Higgs boson physics.

Studying cosmic rays reveals insights into the nature of dark matter.

This research investigates a rare particle decay, aiming to advance our knowledge of fundamental forces.

Research on collective quantum systems shows promise for efficient energy conversion.

Scientists investigate vector-like top quarks to address fundamental mysteries of the universe.

Recent findings enhance our understanding of hadron structure and particle interactions.

T2K aims to study neutrino behavior and its implications in the universe.

A look into how particles react during photoproduction and their complexities.