Latest Articles for Theoretical Physics

Examining the ties between three-dimensional theories and Virasoro minimal models.

A study on vortex configurations and particle dynamics in the Abelian Higgs model.

Uncovering the mysteries of black holes through gravitational wave research.

Researchers investigate horizon symmetries to deepen black hole understanding and its connections to chaos and quantum mechanics.

Investigating the elusive nature of dark matter and its impact on the universe.

Exploring new families of solutions in supergravity related to holographic conformal field theories.

Exploring the quintessence model as a new approach to dark energy.

A fresh approach to predicting gravitational waves from black hole mergers.

An overview of dark matter theories, focusing on the Froggatt-Nielsen Singlet Model.

Researchers improve plasma simulations with a new numerical integration method.

Examining the intriguing role of magnetic monopoles in particle physics.

A look into the interplay of braneworlds, wormholes, and cosmic structures.

A look into the oscillator bases expansion method for complex particle systems.

Exploring the unique properties of Lifshitz fermion theories and their implications.

Exploring the connection between gauge theories and higher-dimensional integrable models.

A new method improves nuclear structure predictions by accounting for three-body interactions.

Quantum computing may transform our understanding of fundamental physics through advanced simulations.

Explore how photon spheres help classify black holes and their implications.

Research reveals how quantum fields alter the structure of AdS space-time.

Examining the connection between TQFT gravity and boundary CFTs.

Examining how massive fields act at spatial boundaries enhances our understanding of quantum physics.

A study of how dark matter and dark energy interact within the universe.

New findings on black hole shadows could change our understanding of gravity.

Researchers investigate dark mesons related to dark matter using particle collisions.

This study examines the behavior of interacting particles in driven-dissipative systems.

This study examines the unique electronic properties of anisotropic Dirac semimetals using a holographic model.

Explore how the bispectrum aids in understanding galaxy distribution and cosmic evolution.

Research on neutrinos may reveal why matter predominates over antimatter.

Exploring the role of Regge poles in particle interactions and scattering amplitudes.

A fresh approach to understanding the universe's beginnings through Bianchi spacetimes.

A study on how non-Gaussianities influence galaxy clustering and bias.

This article examines nucleon interactions during weak processes involving neutrinos.

A look at using dynamical stabilization in QCD simulations to improve accuracy.

Research reveals insights into unique particle interactions in ultra-peripheral collisions.

Exploring the connection between quantum fields, horizons, and information.

Examining the magnetic ground state of monolayer CeI provides insights for future applications.

A look at the Casimir effect and its surprising behaviors in new theories.

Examining how magnetic fields affect pion decay rates and particle interactions.

This article presents a refined look at contextuality in quantum theory.

Explore how boundaries affect string behavior and the significance of the dilaton.