Latest Articles for Particle Physics

Research examines potential changes in particle types and implications for physics.

Examining effective field theory perspectives on gravity and quantum mechanics.

Gamma-ray bursts offer insights into the universe's most violent events.

Recent findings in particle decays hint at the existence of unseen particles.

TPOT enhances particle tracking in the sPHENIX experiment at RHIC.

Scientists investigate the unique properties and behaviors of pentaquarks.

Research discusses the difficulties in identifying dark photons and improving detection methods.

Introducing a fresh perspective on momentum for particles in finite spaces.

This article examines the relationship between networks and linear partitions in BPS states.

A new method improves calculations in particle physics, especially for fragmentation functions.

This article simplifies the role of soft modes in gauge theories and their impact.

Exploring the implications of proton decay in particle physics and Grand Unified Theories.

Study reveals complex behaviors of spinning particles near polymer black holes.

Investigating dark matter decay as a solution to cosmic mysteries.

This article discusses techniques to calculate scattering amplitudes for massive particles.

Investigating how neutrinos behave in extreme environments reveals cosmic mysteries.

New research reveals complex interactions in scalar fields and vacuum decay.

Examining the performance of the CMS electromagnetic calorimeter from 2015 to 2018.

Research explores how neutrinos from supernovae can reveal secrets of dark matter.

New simulation techniques reveal insights into cosmic ray and neutrino detection.

A look into baryon masses and their significance in particle physics.

Researchers investigate long-lived particles at the LHC, finding no significant evidence yet.

Study examines electroweak boson pair production in proton-proton collisions.

Research enhances predictions for particle collisions using gluon beam functions.

A look into the Sauter-Schwinger effect and its implications for physics.

Study measures boson production in proton collisions, enhancing our knowledge of particle physics.

New measurements enhance our understanding of the Higgs boson mass and width.

A study investigates heavy Majorana neutrinos using data from the Large Hadron Collider.

ATLAS leverages cloud resources to enhance data analysis and efficiency in particle physics.

New model enhances calorimeter simulation efficiency and accuracy with machine learning techniques.

Examining the Schwinger model's behavior in de Sitter space and its implications.

A look into cosmic rays and their interactions with Earth's atmosphere.

Research reveals potential TeV halos linked to pulsars, enhancing our understanding of gamma-ray emissions.

Exploring axions and axion-like particles in relation to fundamental physics.

Exploring the behavior of neutrinos and their implications in astrophysics.

An overview of flavor structures in particle physics through two key models.

Exploring the creation of particle pairs from vacuum under strong electric fields.

Examining how loop quantum gravity influences charged leptons and their electromagnetic properties.

Analyzing dineutrinos from proton collisions to explore new physics interactions.

This study reveals the complexities of CP violation in particle physics.