Latest Articles for Particle Physics

A look into gauge theories, their transitions, and particle interactions.

This research explores how complex models may explain baryon asymmetry in the Universe.

Discover the challenges and findings in the search for elusive cosmic neutrinos.

Examining supernovae reveals insights into dark matter and its interactions.

Scientists analyze gravitational waves to better understand Axion-Like-Particles and their properties.

CERN's groundbreaking discovery of the W boson reshaped particle physics and confirmed the standard model.

Research on pions reveals insights into atomic nucleus interactions and particle properties.

Investigating quarkonia pair production in high-energy collisions reveals ongoing challenges and potential for new insights.

Researching particle decay to test existing theories and seek new physics.

A detailed examination of heavy quarks and their interactions through form factors.

Research reveals how the universe heats up after inflation.

Investigating how sudden changes in conditions affect fermionic lattice behavior.

Researchers investigate axion-like particles using data from MiniBooNE and ArgoNeuT experiments.

Exploring the findings and implications of partition functions in quantum gravity research.

Exploring pion behavior reveals insights into strong interactions and early universe conditions.

LHCb upgrades aim to improve data processing for particle research.

Researchers study a unique quantum state using spinor Bose gases.

Examining how gravity influences particle behavior in curved spacetime.

Research reveals discrepancies in baryonic decays, hinting at new physics.

Examining how short-range correlations impact nuclear behavior and interactions.

Research explores trident production processes in high-energy electron interactions with crystals.

Exploring how modular flavor symmetries relate to particle properties and interactions.

This study explores soft particle interactions and their impact on high-energy physics.

Researchers study exotic particles and their decay processes for new insights.

Exploring heavy scalars and their production at the LHC.

An overview of ER bridges and the EPR paradox in quantum physics.

Study reveals nuclear spin's influence on transition polarizability and atomic measurements.

Investigating hyperon behavior and its implications in high-energy nuclear collisions.

An overview of vacuum integration and its impact on UV and IR divergences.

New methods improve understanding of particle collisions and parton interactions.

Research highlights potential exotic states in particle physics.

Recent findings reveal new particle states and their interactions.

Investigating connections between lepton flavour violation, dark matter, and neutrino physics.

A look into how emerging jets help us understand dark matter interactions.

Parallel tempered Metadynamics enhances simulation efficiency for complex systems in particle physics.

Examining how phase transitions impact gravitational waves and primordial black holes.

Investigating cosmic strings may reveal secrets about the universe's early moments.

Analyzing how eta and eta-prime mesons behave during various decay processes.

Scientists propose innovative sensors to enhance dark matter research.

Researchers develop better Hamiltonians for simulating quantum chromodynamics interactions.