Latest Articles for Mathematics In Physics

Quartic Gradient Flow offers a fresh approach to saddle-point configurations in complex physics.

Research on AdS space reveals new families of vacua with scale separation.

Exploring superspin chains and their significance in physics and quantum computing.

Examining the role of topological theories in understanding chiral fields.

Examining QSP applications in quantum systems, especially the one-dimensional Ising model.

A look into tachyon amplitudes and their implications in theoretical physics.

Researchers investigate Asymptotic Grand Unification Theories for fundamental physics.

A look at how effective field theories simplify complex physical systems.

Research on deformation parameters in two-dimensional scalar field theory reveals new dynamics.

A look into conformal blocks and their role in quantum models.

This article presents a new geometric method for calculating entanglement entropy in quantum physics.

A look into the Fermat sextic fourfold and its implications in theoretical physics.

An overview of dyons, their properties, and the mathematics behind their interactions.

Analyzing symmetry operators in black hole spacetimes to simplify complex equations.

This article discusses the Zakharov equation and its impact on wave analysis.

An overview of multi-trace YMS amplitudes and their significance in particle interactions.

A look at the evolving role of symmetries in quantum physics.

New insights into vortex sheets enhance fluid dynamics analysis.

Exploring the role of symmetries and anomalies in quantum field theories.

A look into linearized gravity and its important conserved properties.

This article explores degenerate soliton groups and their significance in nonlinear optics.

New methods improve the study of gauge theories through weak presymplectic gauge PDEs.

Research reveals connections between superconformal theories and black hole states.

Anomalies reveal critical insights into particle interactions and quantum effects.

Researchers tackle challenges in quantum mechanics with innovative numerical methods.

An overview of the connections between quantum gravity, entropy, and von Neumann algebras.

Researchers explore evolving geometries of black holes using advanced perturbation theory.

Exploring the impact of defects in six-dimensional superconformal field theories.

Exploring Yukawa couplings and modular forms in particle physics through string theory.

Discover how spinor fields behave under specific boundary conditions in quantum field theory.

Democratic string field theory offers insights into string interactions with multiple configurations.

Examining position operators' role and challenges in quantum mechanics through matrix representations.

A look at how color structures affect particle interactions and their implications.

Study how altered symmetries influence particle interactions in effective field theories.

A look into how gravity behaves in certain regions of space and its implications.

Exploring the classification and properties of mixed-state SPT phases in quantum systems.

A simple guide to scalar celestial amplitudes and their significance in particle interactions.

A look into quantum field theory and the methods used to analyze particle interactions.

A look into JT gravity and its connections to fundamental physics concepts.

A look into mixed quantum states, their measurements, and implications in quantum technology.