Latest Articles for Particle Physics

Gubser flow reveals insights into fluid behavior in extreme conditions.

Neutrinos play a key role in understanding supernova explosions and their dynamics.

A look into the internal structure of protons and the significance of GPDs.

Explore the intriguing behaviors and significance of neutral kaons in particle physics.

JUNO aims to deepen our knowledge of neutrinos and their properties.

Investigating the implications of Parton Distribution Functions on new physics in particle collisions.

Examining the intriguing nature and implications of the Higgs field.

Research sheds light on neutrino behavior near supermassive black holes and magnetic fields.

Investigating the relationship between quantum metrics and Drude weight in bosonic materials.

Analyzing particle interactions in high-energy collisions reveals key insights.

COSINE-100 project finds no evidence for WIMPs, reshaping dark matter theories.

COSINUS research improves detection of dark matter signals using sodium iodide crystals.

Research on pentaquarks sheds light on the strong force and particle interactions.

Scientists investigate high-energy neutrinos and leptoquarks to explore new physics.

Research improves simulations of particle behaviors in high-energy physics.

A look into Heterotic ALE instantons and their role in string theory.

Investigating dark gravitons and extra dimensions for understanding dark matter properties.

Recent findings enhance understanding of non-open charm hadrons and their interactions.

A new model enhances the understanding of quantum diffusion.

Exploring plasma's impact on the creation of light elements after the Big Bang.

Axions could reveal secrets about the universe and dark matter.

Exploring the behavior and interactions of soft electrons in massless QED.

Exploring the significance of rare top quark decays in particle physics.

A look into how particles gain mass through interactions with composite states.

COSINUS aims to find dark matter using unique measurements in underground experiments.

Study reveals key insights into neutrino behavior during extreme cosmic events.

A study investigates heavy scalar particles using data from proton-proton collisions.

Study reveals new insights into massless particles and curved spacetime dynamics.

Exploring fluid behavior in heavy-ion collisions and the Maximum Entropy method.

A look into mesons and their significance in particle physics.

Explore the role of pions in nuclear and particle physics.

A look into how baryons may have emerged in the universe.

Exploring heavy-light mesons and their significance in understanding particle interactions.

Research reveals advanced methods for harnessing energy from black holes.

Examining how Wilson lines relate to quantum groups in Chern-Simons theory.

Investigating how teleparallel gravity and Skyrmions reshape our view of black holes.

Recent experiments suggest new physics beyond the standard model.

New approaches simplify the study of complex high-spin particles and their interactions.

A look into the connection between particles and their implications in quantum mechanics.

HeRALD aims to find light dark matter using superfluid helium technology.