Latest Articles for Particle Physics

Exploring how particle loss affects quantum systems through the Liouvillian skin effect.

Exploring the principles guiding the universe's evolution through cosmological unitarity.

COSINE-100 experiment fails to detect boosted dark matter signals after extensive research.

Study of neutrino behavior in neutron stars and supernovae using holographic methods.

Exploring new models for particle mass without the Higgs boson.

A look at an alternative model for particle mass generation without the Higgs boson.

Research explores how axions from the Sun can reveal its hidden characteristics.

Examining Higgs boson production with vector bosons and its implications for particle physics.

Scientists investigate leptoquarks to explain unexpected particle decay results.

Researchers explore innovative materials to improve dark matter detection methods.

Researchers use neural networks to model entangled quantum states and explore communication needs.

An overview of how pure spinors impact supergravity and scattering amplitudes.

The latest version of pySecDec enhances calculations for high-energy physics.

Learn about Cerenkov light and its role in detecting high-energy particles.

Investigating the Zee-Babu model to understand neutrinos and their mass.

Scientists propose new experiments to uncover the hidden properties of neutrinos.

A look at spin anticoherent states and their role in quantum measurement.

A novel approach to inflation theory addresses key questions about the universe.

Research focuses on heavy neutrinos and their effects on particle behavior.

An investigation into the precise measurement of proton size using muon interactions.

An overview of the Higgs boson, its mechanism, and importance in physics.

New strategies aim to uncover the secrets of long-lived neutralinos and their implications.

An overview of generalized symmetries and their impact on particle physics.

Exploring F-theory's impact on understanding non-spin geometries in theoretical physics.

Examining gravity's role in non-Abelian gauge theories and scalar particles.

Research on dark matter interactions using data from the ATLAS experiment.

Research on white dwarfs sheds light on dark sectors and neutrino emissions.

Examining the role of chiral symmetry in particle interactions and extreme conditions.

A look into how advection and diffusion influence particle behavior.

Chiral transport affects the behavior of particles in extreme astrophysical environments.

Research into gravitational waves may provide insights into particle physics and the universe's mysteries.

Research reveals how quark mass influences meson characteristics and interactions.

Researchers investigate the elusive decay of the nuclear isomer 180mTa.

Researchers are uncovering new insights into the Higgs boson and its properties.

Explore gauge theories, symmetries, and phase transitions in modern physics.

This study merges data and models to shed light on GPDs in particle physics.

Researching nucleon resonances reveals insights into strong interactions and missing resonances.

Exploring non-reversible transformations in particle physics and their implications.

Explore the fascinating world of hypernuclei and their unique properties.

New insights into Higgs models and their role in the universe's early phases.