Latest Articles for Theoretical Physics

Exploring how neutrino interactions with tritium can reveal secrets of the early universe.

Examining how scalar fields influence the universe's expansion and early conditions.

A look at dark energy's role in the universe's accelerating expansion.

Research into electric dipole moments reveals new insights about the universe's structure.

A look into bouncing cosmology and its implications for the universe's history.

Scientists propose new theories to explain mysteries in particle physics and the universe.

Examining black holes through thermodynamic principles reveals new insights into their behavior.

Research on dark photons could explain magnetic anomalies in particle physics.

Research reveals unique behaviors and properties of fracton quantum gas.

Analyzing stress-energy tensor behavior in global AdS space-time with Robin boundary conditions.

Examining unique features and stability of hairy dyonic black holes.

A look into the black hole information paradox and entanglement behavior.

Exploring the significance of the GWW integral and nonperturbative effects.

A look into the Higgs boson mass and its implications for particle physics.

A look into symplectic tableaux and their significance in group theory.

Topological insulators feature intriguing properties that could transform electronics and quantum computing.

A look into configurations and excitations in the 3D Toric Code.

A new model sheds light on the universe's rapid expansion and dark energy.

A look into how quantum gravity handles complex concepts like divergences.

Research explores how colored scalars might influence Higgs boson production linked to dark matter.

New findings reveal supermassive neutron stars, challenging our understanding of dense matter.

Examining the role of chiral gauge theories in particle physics dynamics.

Examining how a light boson influences the early universe and cosmic microwave background.

An overview of quarks, clusters, and the fascinating states of quark matter.

This article examines the decay patterns of charmed baryons through weak interactions.

Examining neutron stars reveals insights into extreme matter and the laws of gravity.

Exploring a model that connects cosmic inflation to muon behavior.

Exploring the construction of TQFTs using ribbon categories and their implications.

A look at boundary states and their role in quantum mechanics.

Research reveals complexities of supermoduli spaces in theoretical physics.

Investigating how size influences particle interaction and scattering behavior.

This study advances the understanding of holographic duals in quantum field theories.

Research improves limits on operator spectrum in conformal field theories.

Research on complex shapes that defy standard metrics and their properties.

Exploration of Taub-NUT geometry's role in theoretical physics and string theory.

Researchers investigate axions to address mysteries in physics and dark matter.

Explore the intricate world of string field theory and its fundamental concepts.

Discover the impact of gravitational waves on our understanding of the universe.

Research sheds light on hadrons and their complex interactions using innovative frameworks.

Research reveals how cosmic strings can produce detectable gravitational waves.