Latest Articles for Theoretical Models

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.

Research advances our understanding of nucleon spin beyond simple quark models.

Exploring 3D gravity models to enhance our grasp of gravity and black holes.

Research advances understanding of Calabi-Yau compactifications and the tadpole conjecture in string theory.

This study examines the equation of state for nuclear matter in heavy-ion collisions.

A look into baryons and their properties through spectroscopy techniques.

The Nelson-Barr model offers insights into the strong CP problem and matter-antimatter asymmetry.

A look into the properties and significance of triply heavy baryons.

Understanding phase conventions is vital for clarity in hadron physics research.

This piece examines how nucleon behavior changes when in a nuclear environment.

Research explores the link between dark energy and torsion in cosmic expansion.

DASM proposes a hidden sector to explain dark matter and its interactions.

Scientists investigate local galaxy distributions and their impact on cosmic expansion understanding.

This material has fascinating magnetic behaviors due to its special structure.

A clear look at vacuum pp-waves and their role in physics.

Quantum metrology improves measurement accuracy using quantum systems near critical points.

Examining the links between dark matter and the imbalance of matter in the universe.

Research delves into Higgs boson decays and new particle theories.

This study delves into the unique electronic features of Ta NiSe at low temperatures.

Exploring the connection between complexity in quantum states and holography in the SYK model.

Recent advancements in modeling neutrino interactions improve understanding of multi-nucleon cross sections.

Research sheds light on shear viscosity in quark-gluon plasma under varying conditions.

New model improves predictions for nuclear properties and neutron stars.

Investigating heavy neutrinos could change our understanding of the universe.

Explore polaron formation in various insulating materials and its implications.

Examining how magnetic fields are generated and sustained in astrophysical systems.

This research delves into gluon interactions in high-energy collisions.

A look at the infinite-range transverse-field Ising model and its implications.