Latest Articles for Particle Physics

Examining the journey of particle physics and future research directions.

A look at how quarks gain mass in Quantum Chromodynamics.

Exploring the dynamics of nuclear collisions and their impact on matter behavior.

Examining Q-balls and their implications in the Friedberg-Lee-Sirlin model using effective field theory.

Researchers improve predictions for heavy quarkonium production in particle collisions.

Innovative AI methods improve analysis of scalar field theories in physics.

Research on Majorana zero modes offers insights into future quantum computing.

Exploring Higgs inflation and its impact on cosmic understanding through particle interactions.

An overview of efforts to accelerate positrons in plasma wakefields.

A look into the evolution of quantum states and their complexities.

Exploring a model for lepton-flavored dark matter interactions via the Higgs boson.

Exploring how new models reshape our understanding of fundamental particles.

Investigating neutrinos at the LHC offers insights into fundamental forces and cosmic happenings.

This article examines quintuplet dark matter and its potential signals in the universe.

A look at the Emergence Proposal and its implications for quantum gravity.

A look into heavy neutral leptons and their implications in particle physics.

Investigating rare particle decays with the Future Circular Collider offers new insights.

The EIC promises new data to improve our understanding of partons and nuclear structures.

New methods enhance the extraction of spectral functions in Lattice QCD studies.

Researchers aim to detect low-mass particles influencing decay processes.

New technique enhances muon experiments, enabling real-time data collection.

Introducing an auxiliary group method to refine flavon models for particle mass.

A study on CCFTs and their properties in flat space with insights on RG flows.

This article explores decaying sterile neutrinos and their role in our universe.

Research focuses on improving the stability of particle beams for various applications.

Scientists investigate dark neutrinos using the International Linear Collider.

Studying the connection between unstable sphalerons and stable oscillons without shape modes.

New research focuses on neutrinoless double beta decay and neutrino mass models.

Charm quark behavior in extreme conditions sheds light on fundamental particle interactions.

Investigation of neutrino mass hierarchy and the impact of scalar non-standard interactions.

Exploring how strong electric fields create electron-positron pairs from empty space.

Examining the link between gravitational waves and particle physics models.

Examining the roles of partons and soft gluons in quantum chromodynamics.

Neutrinos provide new insights into Earth's layers and density using the ICAL detector.

Researchers study cosmic rays and neutrinos to unlock secrets of the universe.

This article examines new techniques for simulating light in particle physics.

Study investigates effects of the X17 boson on neutron and quark stars.

Study of how particles move and interact with barriers in quantum mechanics.

New algorithms enhance detection of primary vertices at the Large Hadron Collider.

Study reveals how observing free fermions influences their quantum dynamics.