Latest Articles for Particle Physics

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

Learn about di-electron production and its role in studying quark-gluon plasma.

A look into cosmic rays and their knee region characteristics.

Investigating how reheating shapes the universe post-inflation.

Axions may provide clues about dark matter and stellar behavior.

Uncovering the role of dark matter in the universe's structure and evolution.

A look into methods for studying parton distribution functions.

Examining key markers in physics for particle interactions.

This article examines B-mesons and their role in understanding CP violation.

Research on top quarks reveals insights into dark matter and particle interactions.

Exploring the potential of quantum computing in lattice gauge theories for particle physics.

Exploring TMDs and their importance in hadron structure and particle interactions.

Using Spa-Net to improve di-Higgs event analysis and classification.

This paper presents a fresh approach to analyzing neutrino interactions using superscaling.

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

Researchers reveal how light controls losses in Fermi gases, enhancing quantum study.

A look into doubly charged scalars and their potential in energy production.

Examining the conversion process for insights into fundamental physics.

This study investigates higgsinos, potential partners to Higgs bosons, using data from the LHC.

Research focuses on isomeric nuclei for detecting dark matter interactions.

A simplified look at light-cone quantization and its importance in particle physics.

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

Exploring supersymmetry and scalar sequestering in particle physics.

A look into how charged particles interact with electromagnetic fields.

A look into how particles interact through electromagnetic scattering and its implications.

Researchers use eROSITA data to hunt for X-ray signals from dark matter decay.

Researchers study nucleons using lattice QCD to better grasp their interactions.

This study examines non-thermal dynamics in quantum systems with fermions and spins.

Research conducts a search for gluinos using ATLAS data at the LHC.

A look into new physics through 2HDM and VLQs.

Understanding quantum nonlocality and its implications for secure communication and information processing.

The Triplet Track Trigger improves data collection in high-energy physics experiments.

Examining TileCal's efficiency and calibration during the LHC's high-energy collisions.

Scientists investigate elusive particles to deepen particle physics knowledge.

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

New methods improve neutrino detection and measurement accuracy in particle physics.

Investigating proton decay and its implications for particle physics.

Neutrinos influence fundamental processes in the universe through oscillations and decay.

Exploring neutrino behaviors during supernovae and their flavor conversion effects.

An exploration of how jets interact within quark-gluon plasma.