Latest Articles for Physics

This article examines how work function variation affects electron emission in devices.

A deep look into the Rayleigh Conjecture and optimal shapes.

Research highlights measurement accuracy in new compact sensor technology.

A look into Legendrian knots and their classification methods in knot theory.

Researchers study unique trilobite Rydberg molecules to explore particle interactions.

A study on weak Galerkin method for solving challenging boundary value problems.

This work explores a new neural network architecture for predicting Hamiltonian systems.

Explore the fundamentals of differential algebraic equations and their significance in various fields.

Key concepts and applications of variational problems in science and engineering.

Researchers improve axion search experiments with innovative circuit designs.

A study of gravitational interactions between dumbbell-shaped bodies and their stability.

Exploring how particles behave in random environments through dynamical localization.

Study reveals how soft waveguides influence wave behavior through shape and interactions.

Exploring beam stability, damping, and boundary controls in engineering applications.

This study highlights key properties of evolution operators in mathematical systems.

Investigating how initial energy affects vibration damping in various systems.

Examining synchronization in neural networks and power grids through chimera-like states.

Research offers new methods for accurate calculations of effective potentials during phase transitions.

Researchers reveal how currents affect quantum phases in thin electron layers.

This article explores symmetric positive-definite and positive-semi definite matrices and their applications.

Extending Calogero models to infinite symmetry groups enhances our understanding of physical systems.

Exploring the role of symmetry breaking operators in vector bundles and representations.

A new perspective on the relationship between quantum mechanics and gravity.

Exploring the movement of spin in materials and its impact on technology.

This study introduces Dammann gratings for efficient multi-focal sound fields.

Research focuses on enhancing graphene properties through transition metal dichalcogenides.

Research on graphene and WSe2 opens doors for spintronics and new technologies.

This article analyzes the interactions of gravity and electromagnetism at the quantum level.

Examining the Kloosterman connection and its ties to Bessel moments and mathematical structures.

Exploring how large deviations theory sheds light on defect formation during phase changes.

Exploring fixed-point tensors and their role in critical systems.

Thin elastic sheets display intriguing properties influenced by temperature and geometry.

A framework for understanding changing systems through data-driven techniques.

A look into the Hubbard model's impact on electron behavior in materials.

A new design for atom interferometers using helium shows promise for enhanced measurement precision.

Exploring the connections between geometry, algebra, and practical applications.

EuPRAXIA@SPARC LAB in Italy will advance experiments with electron beams and Free Electron Lasers.

Research explores the interaction of spin-polarized particles and intense laser fields.

Exploring how particles behave in networks influenced by reservoirs and varying densities.

An insightful look into phase transitions in a three-state SOS model.