Latest Articles for Particle Physics

Researchers investigate paired bosons in a square lattice to reveal exotic states of matter.

Researchers use machine learning to identify hidden signals in particle physics data.

This study investigates Majorana neutrinos using data from high-energy particle collisions.

A new project that aims to generate high-energy photons for scientific research.

A new model improves particle jet generation through attention mechanisms and fewer parameters.

Researchers unveil lower bounds on scattering amplitudes, reshaping our view of particle interactions.

A look into how saturation affects particle interactions in extreme conditions.

Investigating heavy quark interactions at extreme temperatures and their implications for particle physics.

Research reveals key details about neutrino behavior using argon interactions.

Exploring the role of self-interacting dark matter in galaxy formation.

Researchers investigate dark Higgs bosons to better understand dark matter.

Discovering the origins and behavior of cosmic rays in our universe.

Examining how particle scattering changes in dense nuclear environments.

Scientists study jets from high-energy collisions to gain insights into particle behavior.

Scientists examine electroweak corrections to improve predictions for particle collisions.

Understanding the connection between fundamental forces and particles in the universe.

Understanding how gravitational waves reveal secrets of the early universe.

Researchers propose using LHC's existing technology to find dark matter candidates.

Exploring large extra dimensions and their impact on neutrinos and particle physics.

Exploring a new view of Higgs Inflation and its implications for the universe's evolution.

Researchers improve methods for analyzing complex functions in theoretical physics.

A study on how matter changes forms under extreme conditions.

A look into weak scale supersymmetry and its implications for naturalness in particle physics.

Recent experiments have sought leptoquarks with new data from the LHC.

Understanding quark behavior in strong magnetic fields reveals key insights.

New insights into unique particles formed from heavy quarks.

A look into warm dark matter and its significance in cosmic structure.

An overview of non-invertible duality symmetries and their role in quantum field theory.

A look into neutrinos, their behavior, and implications in particle physics.

This article explores how hyperons are produced from antineutrino interactions with nuclei.

Assessing the role of generative networks in simulating particle physics data.

Recent studies shed light on the origins of ultra-high-energy cosmic rays.

Scientists improve particle identification using the aerogel RICH detector in Japan.

Examining scalar and vector boson interactions under different magnetic field conditions.

A look into dark compact objects and their matter-collecting processes.

A novel approach using GANs to improve hadronization modeling from particle physics data.

Exploring the complexities of twisted superstring theory and its impact on particle interactions.

This article analyzes radiation from oscillating particles near materials, offering new calculation methods.

New findings improve particle interaction predictions in photon production processes.

Study explores energy patterns in particle jets from high-energy collisions at LHC.