Latest Articles for Particle Physics

This study examines how antiprotons influence hydrogen-like ions under magnetic fields.

Exploring the role of hypernuclei in understanding atomic interactions.

Exploring the impact of symmetric quantum systems on particle behavior and interactions.

Exploring the electroweak phase transition and its effects on the universe.

Research reveals how unique black holes affect particle behavior and gravity.

Research reveals how gravitational waves formed during the universe's reheating phase.

Neutrinos offer insights into solar processes and particle physics.

Examining the role of bosons in enhancing quantum computational abilities.

An overview of bosonic droplets and their unique properties in quantum physics.

A workshop in Dubrovnik explores new findings in Higgs boson studies.

This article examines the FN mechanism and its implications for particle physics.

This study reveals new data on neutron-antineutron interactions and their significance.

Exploring the role of quarks and parton distribution functions in high-energy physics.

Machine learning techniques enhance data analysis in high energy physics experiments.

Research reveals new details about the internal structure of pions using lattice QCD.

Researching top quarks sheds light on fundamental physics and particle interactions.

Exploring the role of symmetries in improving quantum computing efficiency.

Researchers investigate muons to uncover new physics related to baryon number.

A look into the relationship between axions and Yang-Mills theory in particle physics.

An overview of string theory and its links to cosmic evolution.

An overview of Higgs boson pair production and its significance in particle physics.

A look into the unique properties of tetraquarks and their interactions.

Research explores AGNs' contributions to the mysterious diffuse neutrino background.

Learn how the Higgs boson affects our understanding of mass and fundamental particles.

Research sheds light on electron interactions in heavy ions under extreme conditions.

Linking theoretical predictions and experimental data through spectral densities in quantum field theory.

Collective transition quenching improves control over quantum systems for various applications.

A study on how k-deformation aids in linking quantum mechanics and general relativity.

Researchers investigate dark matter's self-interactions to address key issues in current models.

Neutrinos are tiny particles with big implications for our universe.

Scientists investigate dark matter through axions generated in the Sun.

Investigating rare particle decays to uncover potential new physics beyond the Standard Model.

Exploring distance conjecture's role in field theories and cosmology.

Researchers investigate gluon density and model challenges in particle physics.

Research highlights improvements in measuring meson decay constants using advanced simulations.

This study highlights the global behavior of solutions in a complex electromagnetic system.

Exploring dark matter candidates and their roles in modern physics.

This article examines quarkonium production processes and their significance in particle physics.

Researchers analyze particle jets to learn about quark-gluon plasma properties.

Scientists investigate axions to uncover dark matter’s mysteries and advance physics.