Latest Articles for Particle Physics

The MSHT group shares new insights on Parton Distribution Functions and their impact on particle collisions.

This article discusses quark flavor balancing in high-energy particle collisions.

This study examines how particle collisions impact spin polarization in quantum mechanics.

An overview of fermion interactions in the Gross-Neveu model's phases.

Exploring the role of orbifolds in understanding particle behavior and symmetries.

A look at nucleons and their role in forming matter.

Study reveals how energy gaps affect quantum steering between detectors.

A novel perspective on resolving the strong CP problem using massless quarks.

Studying kaon decays could reveal new phenomena in particle physics.

Study reveals insights into particle jets and fundamental forces in nature.

Examining the effects of magnetic fields on lambda hyperon polarization in collisions.

Scientists investigate elusive magnetic monopoles using heavy-ion collision data.

A look into lepton pair production during hadron collisions.

Researchers study how jets behave in high-energy nuclear collisions and their interactions.

The CHIPS-5 detector utilizes cost-effective methods to study elusive neutrinos.

Exploring how neutrinos might acquire mass through axions in higher dimensions.

Exploring the significance of neutrinos in particle physics and the universe.

Exploring the potential of super-WIMPs as dark matter candidates.

Examining the role of randomness in quantum mechanics and its implications for information processing.

Scientists enhance energy measurements using dual-readout techniques in particle physics.

Investigating the origins and behavior of superheavy dark matter in the universe.

Leptoquarks may explain anomalies in lepton dipole moments and reveal new physics.

Investigating tau neutrinos and their interactions to reveal fundamental physics.

The EIC aims to deepen our knowledge of matter's fundamental particles.

A machine learning method improves synchrotron magnetic field modeling.

Examining the interplay of forces in particle physics through kinetic mixing.

A collection of simulated jets for advancing machine-learning applications in particle physics.

Researchers investigate axion-like particles to address mysteries in physics and dark matter.

Research on heavy flavor quarks in nuclear environments reveals insights into heavy-ion collisions.

Scientists study exotic particles that combine different quarks, challenging current physics models.

New methods enhance predictions for nuclear fission processes and behaviors.

A study evaluates MSHT and NNPDF methods for fitting parton distribution functions.

New experimental techniques enhance insights into scalar meson properties via photoproduction.

This article discusses advancements in understanding nucleon interactions in nuclear physics.

New methods improve the accuracy of photon PDF for particle physics.

A look into pair production of Higgs bosons and associated particle interactions.

Uncovering the secrets of dark matter through neutron stars and black holes.

New findings on heavy quark diffusion in different plasma types reveal important transport properties.

Researching lepton content in protons through high-energy collisions.

This article explores the significance and implications of neutral triple gauge couplings.