Latest Articles for Biological Systems

A look at how variation impacts evolution and biological complexity.

Exploring the dynamics of active particles and their interactions in confined spaces.

New methods enhance image quality for better biological analysis.

Learn how connection diversity reveals insights in various networks.

Researchers improve simulations to better understand electrolyte behavior and interactions.

Examining how rotating micro-swimmers move and interact near surfaces.

A look at modularity and its role in understanding community structures in networks.

Exploring how active fluids behave differently from regular fluids and their potential applications.

A look into multilayer networks and their impact on interactions in various fields.

This article examines competition between entities in scale-free random graphs.

Exploring the unique behaviors and applications of Coulomb fluids in modern technology.

An overview of fluid movement and its impact on health.

Explore how nonequilibrium systems adapt to changes and their practical implications.

New strategies enhance neural networks' learning in real-world conditions.

Study reveals impacts of species behavior changes on ecological systems.

This study examines factors affecting the assembly behaviors of building blocks.

Study how cell interactions shape tissues and organs.

Examining how area changes influence Turing patterns in natural systems.

This study analyzes how disorder influences synchronization in coupled map lattices.

A look into neuron networks and their impact on brain functionality.

TDMVCC enhances our ability to study molecular behavior over time.

This article examines how solutions to equations behave in varying conditions.

Research reveals how motor behavior influences active nematic materials.

New measures provide insights into directed graphs in biological systems.

A look into solving differential equations using symmetric spaces.

New developments improve analysis of Gibbs processes and their applications across fields.

This research explores the relationship between reachable sets and system dynamics identification.

Exploring how living cells interact and shape their environment.

GCUs connect machine learning models with biological neuron functions for improved efficiency and interpretation.

Exploring how observers manage information to maximize work output in uncertain systems.

New techniques enhance imaging speed and accuracy in brain research.

Examining how ring structures of quantum emitters enhance energy transport and collection.

A closer look at how geometry impacts fluid dynamics in networks.

Examining the complexities of measuring connections in nonlinear systems.

Exploring active matter and its role in movement and energy interactions.

Researchers develop an improved model for molecular interactions using atomic properties.

New biradical design improves DNP for better sensitivity in NMR spectroscopy.

Explore how swarmalators illustrate group behavior and coherence in nature.

Research investigates how simple models exhibit complex behaviors and agency.

Examining how organisms coordinate movement through chemical signals.