Latest Articles for Particle Physics

This article examines how bosons interact with reservoirs through squeezing and driving techniques.

Researchers examine B-meson decays to deepen our grasp of particle interactions.

Examining the effects of magnetic fields on quarks and gluons in finite volumes.

A look into how black holes can extract energy from waves.

Research reveals new understanding of non-invertible symmetries in topological quantum field theories.

Rhenium decay offers insights into the elusive mass of neutrinos.

Researchers investigate dark matter solutions through axions and neutrinos.

Investigating the link between primordial black holes, dark matter, and baryon asymmetry.

Investigating neutrinos to understand their interactions and potential new physics.

This article explores the relationship between axion-like particles and neutrinos in particle physics.

A look at how effective field theories simplify complex physical systems.

Research explores particle decay linked to dark matter using advanced techniques.

Investigating dark matter and high-energy neutrinos through Kaniadakis entropy offers fresh insights.

JSPEC enhances cooling systems for efficient ion beam management at the EIC.

A look at particle colliders and their role in physics.

Examining the role of axion domain walls in understanding dark matter density.

Researchers investigate exclusive hadronic decays of bosons to unlock new physics insights.

A look into pNGBs and their role in physics and dark matter.

XFELs harness high-energy gamma rays for groundbreaking particle physics studies.

Tidal disruption events may play a key role in producing ultra-high energy cosmic rays.

Innovations in positron beam generation and management pave the way for scientific progress.

A look into conformal blocks and their role in quantum models.

Investigating how magnetic fields affect particle movements between potential wells.

Research improves numerical methods for simulating particle interactions in complex systems.

Examining key processes in nuclear physics through superallowed beta decays and their significance.

The muon collider may reveal secrets about heavy neutral leptons and fundamental physics.

Analyzing interactions of an exotic neutral vector boson in particle physics.

Exploring the unique structure of the brick wall model in particle interactions.

Research reveals complex interactions of dimension-eight operators through positivity constraints.

Scientists investigate cosmic rays' origins, energy, and implications for astrophysics.

This article examines fermion behavior in one-dimensional systems and the effects of filling levels.

Exploring a fresh perspective on the relationship between gravity and quantum mechanics.

Scientists study the decay of baryons with two charm quarks to deepen particle physics knowledge.

Study of baryons, diquarks, and their behavior in high-energy collisions.

Investigating the potential link between dark matter and the Higgs field.

This article discusses methods to tackle the RIS problem in particle interactions.

Exploring the connections between particle interactions and color charge.

Examining the impact of gauge parameters on Crewther's relation in QCD.

New methods help detect rattlers in packed systems more efficiently.

Recent studies improve understanding of nucleon interactions and the Standard Model.