Latest Articles for Particle Physics

A new approach enhances uncertainty estimation for hadronization in particle physics experiments.

New measurements reveal anomalies in meson behavior, prompting a reevaluation of existing theories.

This article details the efficiencies of electrons and photons in LHC experiments.

Research offers new methods for calculating generation functions in quantum field theory.

Neutrinos reveal secrets of the universe through cosmic events.

Examining how atmospheric muons help detect cosmic rays.

Researchers leverage autoencoders to enhance LLP detection in particle physics.

Research reveals unexpected phases of Higgs potential at high energy levels.

A fresh perspective on dark matter and gravity challenges traditional views.

Recent findings in top-quark physics enhance our grasp of particle interactions.

Exploring the challenges and strategies in developing stable supersymmetric GUTs.

Recent studies reveal connections between cosmic strings and gravitational waves.

A look into the interactions of quarks and gluons and their significance.

An analysis of baryon behavior in neutron stars and their complex interactions.

An overview of neutrino-nucleus interactions and their significance in particle physics.

Baikal-GVD tracks neutrinos to unveil cosmic mysteries.

A look into how spinning objects behave under different forces.

COMET aims to observe muon to electron conversion without neutrinos.

Researchers are uncovering the complex nature of tetraquarks in particle physics.

Research reveals new insights into meson spin behavior during extreme particle collisions.

A study on the role of distribution amplitudes in semileptonic meson decays.

Investigating how azimuthal anisotropy reveals conditions in proton collisions.

New methods improve simulation efficiency in particle physics.

This research explores a unique transition in the bosonic Kitaev chain affecting entanglement properties.

Heavy quarks reveal insights into matter behavior during high-energy collisions.

Research limits the role of fuzzy dark matter in the Universe.

Researchers enhance understanding of mesons' properties and interactions with electromagnetic fields.

Research on charmed hadrons reveals insights into high-energy nuclear collisions and quark-gluon plasma.

Exploring the challenges of explaining particle masses and mixing in the standard model.

Exploring the connection between cosmic inflation and quantum fields through correlation functions.

Explore the wave functions of baryons and their properties in particle physics.

Recent muon experiments challenge existing theories and hint at dark matter connections.

Research links high-energy neutrinos to potential sources in deep space.

Scientists investigate dark matter's properties and its connection to the Higgs boson.

Research on heavy quarks sheds light on the universe's early moments.

Neutrinos play a key role in understanding fundamental physics and cosmic events.

A look into the role of bino particles in dark matter formation.

An overview of sphalerons and their role in particle physics.

An overview of topological insulators and their intriguing properties.

Research explores ultrastiff fluids and their role in the early universe.