Latest Articles for Theoretical Physics

Quantum field theories reveal unexpected behaviors in classical dynamics and general relativity.

A look into ambitwistor strings and their impact on particle interactions.

A look into string theory's extra dimensions and their implications for the universe.

Investigating baryons' role in understanding dark matter and strong force interactions.

Investigating UV cutoffs and their influence on particle behavior in quantum field theory.

A look into the role of Wilson loops and RG flows in ABJM theory.

Discover techniques to ease the complexity of Feynman integrals in quantum mechanics.

An insight into the connection between gravitational waves and the universe's early moments.

Scientists investigate axions to understand dark matter and fundamental physics.

Exploring modified gravity theories to explain the universe's accelerating expansion.

A novel approach improves ground state preparation for fermionic systems.

A look into the dynamics of Anosov flows and their equilibrium states.

Exploring how magnetic fields and rotation affect strange quark stars.

Exploring quantum simulations to reveal particle interactions and properties.

Exploring the interaction between quantum groups and operator systems, highlighting key concepts.

Investigating the links between neutrinos and dark matter could reshape our understanding of physics.

Study updates predictions for the lifetimes of doubly charmed baryons.

New approach to study massless particles under complex forces.

A study on muon pairs sheds light on potential new physics.

Nahm sums link matrices and sequences, revealing complex mathematical insights.

Researchers propose a model with new particles to explain unexplained phenomena.

New methods in lattice models enhance our grasp of chiral theories.

Exploring how black holes influence the process of vacuum decay in the universe.

A look into the role of stops in dark matter models.

This study reveals insights into the internal structure of spin-3/2 particles.

Exploring the connection between multipartite entanglement and curved quantum spaces.

New insights into baryon resonances enhance understanding of quark interactions and matter formation.

Investigating the role of Higgs preheating in dark matter production.

Scientists observe new bottom strange states, enhancing knowledge of particle interactions.

This article examines the significance of two-particle bound states in physics.

This study examines integrable spin chains and their implications for quantum computing.

Exploring the connections between supersymmetry and Chern-Simons theory in particle physics.

A closer look at NUT black holes and their unique properties.

A look into axion-like particles and their possible role in dark matter.

Examining gauge theories and composite particles through recent lattice studies.

A look into how curvature impacts graviton scattering in string theory.

Researchers investigate hypothetical vector-like quarks using data from the LHC.

Wormholes pose intriguing questions about the universe and our understanding of physics.

Research reveals unique behaviors of rotating black strings in modified electromagnetic theory.

Researchers expand spin chain models to uncover new quantum behaviors.