Latest Articles for Particle Physics

A new experiment aims to detect Axion-Like Particles for dark matter insights.

Research examines reactions of protons in atomic nuclei during collisions.

This research examines how atoms respond to electric and magnetic fields.

Heavy meson decays may reveal clues about the elusive dark matter.

Investigating new sources of CP violation through Higgs interactions.

Investigating dark matter's properties using insights from the Milky Way's black hole.

Antenna subtraction improves calculations in particle physics, enhancing our understanding of fundamental forces.

A look at new methods for predicting particle interactions using electroweak theory.

Examining multi-Higgs theories as a way to address the strong CP issue in particle physics.

This research sheds light on quark interactions under extreme conditions.

Exploring the Scotogenic model's insights into dark matter and neutrinos.

Research on reactor antineutrinos sheds light on fundamental physics and unexpected discrepancies.

Examining kink behaviors and collisions in coreless potentials reveals intriguing dynamics.

Scientists study Sgr A* to understand energetic flares from its surrounding plasma.

Studying the unique properties of anyons in quantum Hall systems.

A look at anyons and their implications in quantum physics.

The SMOG2 system enhances particle collision studies at the Large Hadron Collider.

Study of particle behavior in high-energy proton-lead collisions reveals early universe conditions.

Study of light polarization revealing insights into dark matter.

Recent studies reveal complex processes behind gamma-ray bursts and their emissions.

Research examines domain walls in particle physics as possible sources of gravitational waves.

Investigating the role of cylindrical fractional Laplacian in quantum particle behavior.

Researchers reveal new mechanisms of particle delocalization using vacuum fluctuations in quantum systems.

Researchers investigate unique particles made of four quarks.

A model presents new particles to explain surprising mass measurements.

Using data attribution methods to improve particle physics analysis at LHC.

New techniques aim to measure the neutron EDM with greater accuracy, exploring fundamental physics.

Research on top quarks reveals insights into quantum mechanics and particle behavior.

Examining how gravity and geometry influence the localization of fermions in higher dimensions.

Research on silicon carbide aims to improve particle detector performance under radiation.

A look into nucleons, their mass, spin, and the forces that hold them together.

A new framework enhances analysis of fundamental particles and forces.

Scientists study particle interactions in AdS space for insights into physics and cosmology.

Examining particle behavior through intensity interferometry in heavy-ion collisions.

Scientists explore ALPs using high-energy muons to understand dark matter and mysteries in physics.

Axions could change our view of fundamental forces and CP violation.

A look into string amplitudes and their role in theoretical physics.

Research reveals new mechanisms behind cosmic ray energy gain from supernova shock waves.

Scientists analyze single top quark production to test particle physics theories.

New plasma boosters are set to improve X-ray free-electron lasers significantly.