Latest Articles for Theoretical Models

Examining inflation in the early universe through modified gravity and observational data.

Researchers study quantum spin liquids in ruby and maple-leaf lattices for insights into magnetic behavior.

Exploring the effects of antiproton annihilation in different materials.

Scientists investigate light bosons, setting limits on their existence through high-energy collisions.

Examining the decay processes of charmed baryons reveals essential aspects of fundamental forces.

Learn about Landau damping and its effects on plasma behavior and particle interactions.

This study investigates the electron-to-proton mass ratio using galaxy clusters and supernovae data.

A look into bosonic dark matter interaction and its implications for cosmic structures.

A deep dive into the CPT model and its implications for superconductivity.

Examining the complex behavior of self-interacting vector fields linked to gravity.

A look into a new concept involving wormholes and space-time.

This study examines how dark matter can remain stable over time.

Exploring the stability of atomic nuclei through magic numbers.

Exploring the impact of vector-like leptons on lepton mass and interactions.

A look into the decay processes of heavy baryons, focusing on two-pion emissions.

Research on heavy mesons produced from light nuclei interactions sheds light on gluons.

Examining how neutrinos scatter off thallium isotopes reveals insights into their properties.

A look into a rare nuclear decay process and its significance.

Scientists seek evidence of a charged Higgs boson using data from particle collisions.

Research into how light and theoretical particles may reveal dark matter insights.

Exploring the stability limits of Q-balls influenced by attractive forces.

Researchers investigate charged Higgs bosons using data from proton-proton collisions.

Nuclear PDFs are crucial for understanding quarks and gluons in atomic nuclei.

This article examines the bootstrap method for simplifying inflation correlator calculations.

Research shows breakup dominates at low energies for neutron-halo projectiles and heavy targets.

This article examines the impact of theta term on particle masses.

Examining how the CLT adapts to systems with strong correlations.

Researchers aim to uncover new particles and explore supersymmetry in future experiments.

Scientists uncover chaotic behaviors in quantum systems through advanced models and studies.

Exploring photon collisions and the creation of muons and taus in particle physics.

Research reveals a model for understanding neutrino behavior and mass constraints.

Examining the persistence of singularities in quantum theories.

Examining multi-Higgs theories as a way to address the strong CP issue in particle physics.

This article examines the behavior and interactions of kinks and antikinks in physics.

This study explores how impurities affect localized states in flat band systems.

Examining how gravity and geometry influence the localization of fermions in higher dimensions.

Exploring bouncing universes as alternatives to traditional Big Bang models.

This article examines how deuterons interact with heavy nuclei at low energy levels.

A look into string amplitudes and their role in theoretical physics.

Research highlights unique magnetic properties of -RuBr and its potential applications.