Latest Articles for Particle Physics

Researchers investigate elusive particle decay with unexpected results.

New findings shed light on magnetic fields and cosmic rays in RX J1713.7-3946.

A look into theoretical boson stars and their implications in modern physics.

Research on sterile neutrinos could reveal new physics beyond current models.

Exploring dark matter through a superconducting fluid model with potential candidates.

A look into nucleon currents and their role in particle physics.

Exploring how holography enhances understanding of composite Higgs models in particle physics.

A new method improves the speed and accuracy of Fourier-Bessel transforms in physics.

This study examines the momentum contributions of quarks and gluons in pions and kaons.

ILC aims to uncover the mystery of baryon violation and its impact on our universe.

Examining how modular forms influence stable vacuum states in physics.

Research investigates the link between high-energy neutrinos and galaxies.

A fresh perspective on dark matter's role in cosmic evolution.

Research reveals the absence of CME current in equilibrium QCD.

A study of radiation emission from accelerated charged particles under extreme conditions.

Scientists study high-energy neutrinos from NGC 1068 to reveal cosmic processes.

Analyzing lightest particle mass in Ising field theory under varying temperatures and magnetic fields.

A blend of methods enhances accuracy in studying quantum systems.

This article discusses new methods for simulating complex quantum systems efficiently.

Researchers examine string behavior at low speeds and its implications for physics.

This research explores how quarks and gluons shape proton properties using Generalized Parton Distributions.

New methods aim to speed up particle collision simulations using machine learning.

Using machine learning to enhance phase space tomography in particle accelerators.

A look back at the discovery and research on exotic baryons and pentaquarks.

A look at how quantum computing enhances particle data analysis.

A look at particle interactions in neutron stars and the Kohn-Luttinger effect.

Examining triangle singularities and their impact on particle behavior and isospin breaking.

An overview of quarks and their impact on nuclear properties.

A look into the hidden sector's role in dark matter.

A fresh model explains MeV emission lines in gamma-ray bursts.

CUPID-Mo aims to find signs of new physics through rare decay events.

Examining how temperature changes impact centre vortices in particle physics.

This article discusses the left-right asymmetric model and its implications for neutrinos.

Exploring the unique properties and behaviors of Kähler-Dirac fermions in theoretical physics.

Recent measurements improve our knowledge of charmonium decays and particle interactions.

A new framework links strong interactions with dark matter through complex particle dynamics.

A look into the fascinating world of neutrinos and their significance in physics.

Studying long-range interactions reveals new dynamics in quantum systems under continuous monitoring.

Researchers study Indium-115 decay to learn about weak interactions and neutrinos.

An overview of neutrino mass and its significance in particle physics.