Latest Articles for Particle Physics

This research evaluates single top quark and antiquark production rates from LHC data.

Researchers delve into the complexities of dark matter interactions through NREFT.

Explore the fascinating world of magnetic black holes and their unique characteristics.

Electric dipole moments offer insights into fundamental particles and the universe's mysteries.

A look into double-mixing CP violation and its implications for matter-antimatter asymmetry.

Exploring the dual relationships in four-dimensional gauge theories and their implications.

This article examines particle behavior near boundaries in tight-binding models.

Exploring the connection between non-relativistic string theory and Galilean Electrodynamics.

Investigating critical points in quantum chromodynamics and their significance in understanding matter.

Module-0 showcases innovative detection technology for studying challenging neutrino particles.

New upgrades to the ATLAS Inner Tracker aim to improve performance and data collection.

Investigating jettiness provides insights into particle interactions in high-energy collisions.

Exploring Higgs couplings and their implications for particle physics.

Research reveals universal behavior in unitary Fermi gases using fictitious particles.

Investigating how gauge fields respond to constant electric and magnetic backgrounds.

Research sheds light on particle interactions and fundamental forces at high energies.

This article examines events with missing transverse momentum and jets in high-energy collisions.

Research sheds light on quark-gluon plasma and thermoelectric effects in extreme conditions.

Explore key concepts and symmetries in two-dimensional Yang-Mills theory.

Study reveals key relationships between circular speed and dark matter characteristics.

A deep dive into fermionic systems and their anomalies.

This research investigates top-quark pair production involving isolated photons and its implications.

An overview of how gravitational waves reveal information about the early universe.

Recent findings on charmonium states raise important questions in particle physics.

Researchers study fluctuations in particle production during nuclear collisions to understand fundamental forces.

A groundbreaking approach simplifies conversion between linear and quadratic propagators.

A novel method helps measure dark matter movement uncertainties for better detection.

ATLAS experiment reveals significant findings on electroweak production processes.

Investigating (anti)neutrino-nucleon scattering to reveal weak interactions in particle physics.

Exploring the complex SYK model's impact on quantum gravity and particle interactions.

Research explores dijet production and non-eikonal corrections in high-energy particle collisions.

PandaX-4T aims to deepen our knowledge of dark matter through advanced detection techniques.

A look at how color structures affect particle interactions and their implications.

New models may relax constraints on axions, offering insights into dark matter.

Exploring the dynamics and implications of particle shells during cosmic phase transitions.

Investigating the role of self-interacting neutrinos in cosmology and their implications.

A study on separable potentials and their role in particle interaction modeling.

Study how altered symmetries influence particle interactions in effective field theories.

Using lattice Boltzmann method to explore behavior of ellipsoidal particles in fluids.

Delve into the essential theory of how quarks and gluons interact.