Latest Articles for High-energy Physics

Exploring how magnetic fields affect quark-gluon plasma in heavy-ion collisions.

Researchers uncover non-invertible symmetries in type IIB supergravity, impacting particle behavior.

Exploring latest findings about the Higgs boson and top quarks at the LHC.

Scientists seek evidence of a charged Higgs boson using data from particle collisions.

Research focuses on improving light output in nanocomposite scintillators for particle detection.

Research reveals effects of higher-order gradients on spin polarization in high-energy environments.

Research at LHC investigates flavons and their link to top quarks.

Recent experiments reveal quantum effects in radiation reaction under extreme conditions.

This article examines the impact of quantum effects on transversity operators in particle physics.

Analyzing how top and bottom quark masses influence Higgs boson production.

Study reveals how charge moves in hot, magnetized plasma under various conditions.

Investigating new sources of CP violation through Higgs interactions.

A look at new methods for predicting particle interactions using electroweak theory.

This research sheds light on quark interactions under extreme conditions.

Study of particle behavior in high-energy proton-lead collisions reveals early universe conditions.

Recent studies reveal complex processes behind gamma-ray bursts and their emissions.

A closer look at bulk viscosity's role in neutron star mergers.

Examining the methods for accurate jet energy measurements in particle collisions.

Scientists analyze single top quark production to test particle physics theories.

Investigating the dynamics and properties of quark-gluon plasma in particle collisions.

This study examines the equation of state for nuclear matter in heavy-ion collisions.

Research reveals insights on proton behavior during high-energy collisions.

Examining unique flow patterns in nucleus-nucleus collisions at the LHC.

New tracking method promises to improve efficiency at the Large Hadron Collider.

An overview of the complexities in modeling neutron star merger events.

Research reveals how electric fields influence heavy-flavor mesons in extreme conditions.

Studying neutron star glitches reveals complex fluid dynamics in their interiors.

This study examines how bosons decay into mesons and the implications for particle physics.

Examining how quantum effects change behavior in small-scale systems at high temperatures.

This article examines gamma-ray bursts and their rapid variability, revealing insights into cosmic events.

A look into string theory's open strings and instantons for grasping the universe's fabric.

Exploring lepton flavor violation and its significance in modern physics.

A look into the origins and distribution of ultra-high-energy cosmic rays.

Research aims to understand unique tetraquarks produced through light interactions.

An overview of cluster formation and freeze-out in nuclear physics.

This research delves into gluon interactions in high-energy collisions.

Learn about the processes and significance of Higgs boson production at colliders.

This study examines properties of heavy-light mesons using lattice QCD methods.

This study reveals how finite beaming affects QED cascade development in extreme conditions.

Investigating how particle spin effects matter behavior in extreme conditions.