Latest Articles for High-energy Physics

A novel approach enhances detection of gamma-ray signals by refining background noise estimation.

Researchers use holography and Wilson loops to study particle behavior and confinement.

A new method helps uphold gauge invariance in quantum simulations, reducing errors.

A look into jet quenching phenomena in quark-gluon plasma.

Study reveals how expanding media alters parton energy loss in collisions.

Research on jet production reveals insights into quark-gluon plasma behavior.

A look into the factors affecting the maximum depth of extensive air showers.

New findings on fully-charm tetraquarks may change our understanding of particle physics.

Scientists investigate vector-like quarks and their potential impact on particle physics.

Investigating how interference affects Higgs boson pair production.

Research sheds light on top quark behavior through non-commutative geometry.

Exploring how magnetorotational supernovae impact our understanding of cosmic neutrinos.

Examining particle behavior in heavy-ion collisions sheds light on the early universe.

Studying glasma behavior in heavy-ion collisions reveals critical insights into matter's evolution.

Research sheds light on particle interactions in extreme conditions of heavy-ion collisions.

Scientists aim to detect true muonium, a rare particle formed from muons and antimuons.

Examining how charmed baryons respond to varying temperature and density.

MATHUSLA aims to reveal dark matter and its elusive long-lived particles.

Investigating how heavy-flavor jets behave in high-energy nuclear collisions.

Examining how EEC reveals differences between quark and gluon jets.

This study investigates uncertainties in parton shower simulations and their effects on jet behavior.

A look into how angularities and beam functions advance high-energy physics research.

Researchers use normalizing flow to analyze complex data in particle physics.

This study examines how breaking symmetries influences physical phenomena.

This article explores the significance of -boson pair production in particle physics.

Research reveals mechanisms behind supernovae, focusing on hadron-quark phase transitions.

A look into how photons reveal insights about heavy ion collisions and quark-gluon plasma.

A look into the pulse structures of gamma-ray bursts and their emissions.

Research on heavy ions reveals valuable insights into nuclear structure and matter behavior.

Gradient flow renormalisation improves calculations for meson properties and lifetimes.

Research calculates meson masses to enhance understanding of particle interactions.

Exploring the connections between the IKKT matrix model and string theory.

Exploring how magnetovortical matter behaves under extreme conditions.

Research into QGP reveals key interactions of quarks and gluons.

Examining how magnetic fields and rotation influence charged particle radiation.

Scientists study dark photons through high-energy particle collisions for clues about dark matter.

Research sheds light on charge behavior in heavy-ion collisions and Quark Gluon Plasma.

This article explores how machine learning enhances calorimeter calibration for particle physics.

Scientists study heavy-ion collisions to understand quark-gluon plasma and particle behavior.

Researchers investigate cosmic rays in the vibrant star-forming region NGC 3603.