Latest Articles for Particle Physics

Examining the impact of quark AMM on dense quark matter in strong magnetic fields.

Scientists develop improved techniques for analyzing dark matter signals.

This study examines how magnetic fields affect electron-positron annihilation and particle behavior.

A simplified approach to two-particle interference using a delta potential well.

SuperKEKB enhances systems to reduce risks of Sudden Beam Loss in particle experiments.

Researchers reveal surprising scattering behavior linked to transition states in reactions.

This article explores the behavior of bosonic dark matter within neutron stars.

Examining the role and interactions of spin-3/2 particles in theoretical frameworks.

Examining the role of gaugino condensates in particle physics.

A proposed technique compares black hole spin measurements to find dark matter.

Exploration of flavor symmetries and their impact on lepton interactions.

Exploring gravitinos' role in dark matter and the universe's reheating phase.

This article investigates how particles behave in the Solar Basin over time.

Scientists investigate Higgs bosons and vector-like quarks for deeper insights.

Research uncovers new findings on the electroweak phase transition in particle physics.

Researchers investigate muon anomalies to advance particle physics theories.

Investigating neutrinos from high-energy collisions offers new insights into particle physics.

Explore how supernova remnants shape our understanding of the universe.

New methods simplify calculations in Yang-Mills plasma pressure at elevated temperatures.

Spinning black holes could act as natural accelerators for particles, revealing cosmic secrets.

Exploring the significance of axions and their interactions with nucleons.

New findings from the LHC study limits on potential new particles.

New models propose solutions to dark matter's mysteries and challenges.

CP violation offers insights into the matter-antimatter imbalance in the universe.

Examining quantum phase transitions and their impact on particle behavior.

Research focuses on scalar bosons and their potential role in understanding new forces.

Exploring the potential of a new dark matter candidate within particle physics.

Investigating cold quark matter and its implications for neutron stars.

This research sheds light on how partons behave in polarized nucleons.

Examining the electromagnetic characteristics of quark-gluon plasma in extreme conditions.

Research on double field theory explores higher derivatives and background independence.

Research explores ghost confinement in quantum gravity to tackle stability issues.

Exploring how gravitational waves relate to dark matter in the early universe.

Research explores using storage rings to measure gravitational waves from cosmic events.

GRAND aims to reveal secrets of high-energy particles from the cosmos.

New findings reveal key insights into particle interactions through strong-phase differences.

Advanced Python code facilitates the study of transversity PDFs in particle physics.

Research explores dark matter, phase transitions, and gravitational waves in the universe.

Examining charm quark effects in B-meson decay processes for better physics insights.

Investigating particle behavior to uncover CP violation effects in the universe.