Latest Articles for Theoretical Models

This article examines gauge theories and their behavior during temperature variations.

Exploring superconductivity in triangular lattices using the Hubbard model reveals new states and properties.

Research into low mass scalars offers insights into fundamental particles and forces.

This model expands the Higgs sector with additional scalar fields to explain particle mass.

Exploring complex theories to deepen our understanding of gravity.

Investigating unique states that defy typical thermal behavior in quantum systems.

A look into the flavor-dependent model of neutrinos and their intriguing properties.

A look into how protons and neutrons interact and influence matter.

Research into phase transitions reveals complexities in frustrated magnetic systems.

Understanding the challenges of quantum gravity through the IKKT matrix model.

A look at the Kitaev model and spin interactions in magnetic systems.

Unraveling the mysteries of neutrinos and their crucial role in the universe.

Exploring the behavior of particles in strong electromagnetic fields.

A look into complex connections between physics models and their symmetries.

A look into quantum magnetism and the Gamma interaction in spin systems.

A look into constant scalar curvature metrics and their challenges.

An insightful look into the complexities of two-neutrino double-beta decay in particle physics.

Exploring CP violation and the role of the Randall-Sundrum model in particle physics.

Discover the Yang model and its role in particle interactions.

A simplified overview of how boundaries affect string behavior in the universe.

Examining how quantum corrections improve models of particle masses and interactions.

BSkG4 enhances our grasp of nucleons and their role in the cosmos.

Explore the role of topological phases in modern physics and their applications.

Neutrinos change flavors while traveling, impacting cosmic events like supernovae.

Examining how disorder affects the Kitaev chain and its topological phases.

A study on baryons, their interactions, and the role of operators.

Rare decays offer insights into fundamental particle interactions and the limits of current physics.

Exploring the Inert Doublet Model and its potential in dark matter research.

A look into how particles gain mass and related mysteries.

Explore the intriguing link between random matrices and Calogero models in physics.

A closer look at the behaviors of open systems and their limitations.

Exploring mysterious charmonium states and their decay properties above 4 GeV.

Examining rare decays reveals insights into particle interactions and potential new physics.

Discover the fascinating dynamics of quantum spins at the AKLT point.

Researchers simulate chaotic particle interactions using a new approach to quantum systems.

A fresh approach to understanding the origins of spacetime and mass.

A look at the mysteries of dark matter and dark radiation in the universe.

Exploring the real Higgs triplet model and its implications for particle physics.

Researchers study chaotic quantum magnets to unlock secrets of physical systems.

A look at kaons and pions and their role in particle physics.