Latest Articles for Particle Physics

An overview of the Sugimoto model's significance in string theory.

Researchers use neural networks to simulate off-shell effects in particle physics.

Exploring how vector-like quarks may unlock dark matter mysteries.

Scientists hunt for the elusive charged Higgs boson at the Large Hadron Collider.

Discover how quarkonia reveal insights into quark-gluon plasma phenomena.

Discover how muons interact with atomic nuclei and the role of vacuum polarization.

Uncovering the fascinating properties of the deuteron and its role in understanding matter.

Discover the fascinating world of anyonic chains and their implications in quantum science.

Uncover the gravitational ballet of quantum particles and their implications in the universe.

A new theory proposes how dark matter might form in the early universe.

Discover random velocities and their impact on particle behavior near light speed.

Explore the fascinating world of ultra-peripheral collisions and pseudoscalar mesons.

Discover how modular symmetry shapes our understanding of the universe.

Discover how Sivers and Collins asymmetries reveal nucleon's inner workings.

New FLUKA version improves accuracy in proton radiation therapy simulations.

Delve into the fascinating world of charmed baryons and their behaviors.

Unraveling the secrets of neutrinos and their role in the universe.

Discover how particles move in fluid suspensions and its real-world impact.

Explore the fascinating concepts of superstrings and Riemann surfaces in theoretical physics.

Discover the fascinating world of quarks, nucleons, and their interactions.

A deep dive into jet behavior in high-energy particle collisions.

Uncovering the secrets of quark-gluon plasma through dilepton studies.

Discover how Bose-Einstein condensates reveal particle creation in an expanding universe.

A new project aims to detect dark matter using advanced technology and rigorous testing.

Scientists improve the calculation of particle moments using a novel approach.

Scientists tackle the strong CP problem with the Nelson-Barr model and axions.

Exploring spin alignment in particle collisions reveals insights into fundamental physics.

Discover the role of inflation and axions in shaping the universe.

Unraveling the mystery of dark matter and its cosmic significance.

Explore the unusual behaviors of nuclei in the island of inversion.

Scientists investigate neutrino mass through B-L symmetry at the LHC.

Uncovering the elusive particles that might explain the universe's secrets.

A deep dive into the intriguing world of six-dimensional orientifolds in theoretical physics.

Dive into dark matter, axions, and the universe's hidden secrets.

Explore the fascinating world of quarks and their interactions through pions.

Scientists investigate dark matter particles energized by the Sun.

Discovering the secrets of matter through muon-proton collisions at CERN.

Discover the intricate processes behind pions and their formation from quarks.

A new method enhances simulations in lattice gauge theory for better particle interaction studies.

Researchers investigate light scalars to unlock secrets of the universe.