Latest Articles for Nonlinearity

This study examines nonlinear RLC circuits, focusing on diode effects and circuit behavior.

Research reveals how nonlinear behaviors can protect topological properties in various systems.

Research reveals new characteristics of dark-bright solitons with varying widths.

Exploring the significance of solitary waves in various scientific fields.

Exploring the potential of quantum sensors for precision measurements.

Researchers investigate unique behaviors in fiber Bragg gratings with nonlinearity.

This article examines layer normalization's role in improving neural network classification.

Explore the complexities of the moist atmosphere and its effects on weather.

Examining how nonlinearity in the cubic nonlinear Schrödinger equation influences wave dynamics.

Discover how MRRs enhance efficiency in reservoir computing tasks.

Examining how waves behave under unique instabilities and their implications.

Research shows how nonlinearity affects wave localization in disordered environments.

Mechanical qubits show potential for faster processing and new applications in quantum technology.

Investigating how tidal currents affect wave behavior in the ocean.

Uncovering how light can be controlled for advanced technologies.

This study examines factors affecting superconducting nanowire single-photon detectors performance.

Exploring the unique properties of twisted-bilayer lattices in Bose-Einstein condensates.

Examining how energy loss influences behavior in dynamic fractional systems.

This study presents a model analyzing surface waves in varying channel shapes and depths.

Solitons maintain their shape over distance, making them valuable in various technologies.

Exploring the complexities of nonlinear equations and their real-world applications.

Understanding KIDs and their role in cosmic data collection.

Examining turbulence models and data assimilation for fluid behavior predictions.

Explore solitons and their unique behavior in quasiperiodic lattices.

Learn about solitons and their transfer in Bose-Einstein condensates.

Learn how we control robots for safe and efficient operation.

Learn how FEM tackles complex nonlinear equations in practical scenarios.

New approaches improve speech models for better communication tools.

Researchers apply machine learning to understand complex wave interactions with materials.

Uncover the fascinating behaviors in nonlinear non-Hermitian systems and their implications.

Research reveals the potential of exciton-polaritons in future technology.

A look into the significance of mixed local and nonlocal Kirchhoff problems in mathematics.

An overview of the complex Quasilinear Schrödinger Equation and its components.

Explore how two-photon coupling is changing technology in superconducting circuits.

Learn how optical fiber communication enhances our digital experiences.

Explore how natural patterns form through Turing instability and reaction-diffusion systems.

A look into how the brain processes information across different timescales.

Learn how to adjust the properties of nonlinear elastic materials for digital creations.