Latest Articles for Particle Physics

Exploring nucleosynthesis and hypernuclei formation through high-energy collisions.

NANOGrav's findings suggest a connection between gravitational waves and a phase transition in the dark sector.

New findings link gravitational waves to galaxy formation in the early universe.

Explore the concepts of effective potential and conformal symmetry in theoretical physics.

Research enhances predictions of particle interactions involving top quarks and photons.

Research explores excited states in nickel isotopes, focusing on Pygmy Dipole Resonance.

Exploring how pair beams interact with plasma and their implications for blazars.

Recent experiments are challenging our understanding of particle physics through muon g-2 measurements.

Researchers study black holes using Scalar-Tensor-Vector Gravity to reveal new particle interactions.

Analyzing how the Higgs field interacts with gravitational instantons and geometrical structures.

Researching Higgs boson decays to find new physics at FCC-ee.

This article discusses a model for understanding particle interactions at various energy levels.

The Line Emission Mapper will help detect X-ray signals from dark matter.

This article examines the role of jets and 1-jettiness in particle physics.

Researching Tcc(3875)+ and Tcc(3875)- in dense environments reveals their complex interactions.

Researchers investigate leptoquarks through proton collisions at the Large Hadron Collider.

This article explores next-to-leading power corrections related to thrust and the -parameter in particle collisions.

Supernovae release neutrinos, offering insights into cosmic events and fundamental physics.

A look into the complexities of nonlinear Yang-Mills black holes and their properties.

This study examines ways to measure the size and shape of tiny silica particles.

Upgrades to hybrid circuits enhance data collection at the LHCb detector.

Upcoming experiments may shed light on elusive Axion-Like Particles and their role in physics.

A look into the unique structure and composition of hybrid neutron stars.

Exploring nontopological solitons and their implications in modern physics.

A new algorithm enhances heavy quark process simulations for precise particle physics predictions.

Recent findings reveal gravitational waves from the early universe, linked to theoretical models.

An overview of light mesons and their significance in studying the strong force.

An overview of bottom baryons and their significance in understanding particle interactions.

Recent findings link gravitational waves to cosmic sounds, revealing the universe's secrets.

LIDA aims to detect axions, shedding light on dark matter mysteries.

Research explores gauge boson interactions to reveal potential new physics.

A study explores finding leptophobic particles using advanced techniques.

Recent research aims to find squarks and gluinos to explore new physics.

New findings on gravitational waves may connect to a proposed particle model.

New methods could lead to more efficient muon generation for experiments.

This article explores how particle masses relate through theoretical models.

Exploring the relationship between dark matter candidates and baryon asymmetry in modern physics.

An overview of efforts to unify fundamental forces in physics.

NANOGrav reports on potential gravitational wave background linked to early universe events.

Exploring the potential of HNLs in understanding neutrinos and the universe.