Latest Articles for High-energy Physics

Discover how neutron stars and pulsars challenge our understanding of physics.

Research on anomalous particles X17 and E38 may change particle physics.

Research investigates new heavy bosons through proton-proton collisions.

Exploring the role of the QGSJET-III model in high-energy particle interactions.

Researchers study hidden particles formed during high-energy particle interactions.

A mission to study ultra-high-energy cosmic rays using a high-altitude balloon.

A look at how spin-3/2 hadrons are studied through SIDIS experiments.

Jets in heavy-ion collisions provide insights into Quark-Gluon Plasma.

Workshop highlights on challenges and research directions in high-energy heavy-ion physics.

ATLAS experiments set new limits on elusive leptoquark masses and production rates.

A study of quark interactions and their impact on neutron stars.

A look into methods for studying parton distribution functions.

Researchers develop a method to detect elusive higgsinos using displaced tracks.

Research on heavy neutral leptons may reveal answers about neutrino masses.

A look into new physics through 2HDM and VLQs.

Scientists investigate elusive particles to deepen particle physics knowledge.

Investigating heavy flavor hadrons in high-energy collisions reveals insights into quark-gluon plasma.

Research at ATLAS aims to identify new particles linked to supersymmetry.

Research explores the connection between string theory and the masses of quarks.

Researchers investigate the missed gamma-ray bursts from 2004 to 2018.

A study on the interplay of string theory and QCD through fermions and baryons.

Exploring how fluid behavior impacts freeze out in high-energy nuclear collisions.

The CMS detector is set to improve data collection with a new calorimeter system.

Investigating self-energy and damping rates of fermions in extreme conditions.

A look into neutrinos produced by cosmic rays and their implications.

A look into the challenges of measuring the strong coupling constant.

Recent observations reveal key details about the energetic jets of Pictor A.

Streamlining the calibration process for more accurate simulations in distributed computing.

New research reveals the role of external photons in LBL blazars.

Researchers use quantum computers to simulate fundamental particle interactions in SU(3) theory.

Neutron star collisions reveal secrets about matter in extreme conditions.

Exploring the impact of defects in six-dimensional superconformal field theories.

A deep dive into how heavy quarks interact within quark matter.

Research investigates top squark production, pushing the limits of particle physics.

FASER achieves a milestone by detecting neutrinos at the LHC, enhancing future research.

Scientists investigate potential new particles through high-energy collisions at the LHC.

A deep dive into stability and quantum corrections in the Litim-Sannino model.

Research investigates top quarks and missing energy to probe Dark Matter.

Researchers analyze neutrinos to understand mysterious cosmic phenomena.

A study examines diboson polarization based on energy levels using ATLAS detector data.