Latest Articles for Biology

New solver improves efficiency in Stokes flow calculations critical for various fields.

Research reveals the impact of biological age on health and mortality risks.

This article discusses a method for studying asymmetric gene interactions.

Exploring the effects of resetting on particle movement in Brownian motion.

Analyzing how two cell populations interact and affect each other's survival.

Exploring locally irregular graphs and their implications across various fields.

Exploring how immune cells influence growth under high sugar intake.

This article discusses finding solutions for stochastic delay differential equations and their significance.

Explore the intriguing behavior of synchronized and unsynchronized oscillators.

Research on how birds use wing movements for landing and hunting.

A new model for understanding complex networks with multiple connections.

This article examines the role of analytic semigroups in wave stability and system behavior.

Study reveals hourglass pattern in complex brown algae development.

Exploring sewed focuses and their relevance in mathematical behavior.

A look into how flies coordinate movement and maintain balance.

New superconducting detectors enhance protein detection methods in biology and chemistry.

MoMS-Net improves mass spectra prediction, enhancing molecular identification accuracy.

This article examines how particle groups interact consistently under various transformations.

Researchers improve energy difference calculations with machine learning for molecular studies.

Explore new bounds for sums of dependent random vectors in high dimensions.

A look into how points on curves can maximize energy and shape.

A look into particle dynamics through simple models and their biological significance.

Explore the basics and applications of knot theory in various fields.

This article explores hitting probabilities related to fractional Brownian motion in various fields.

Research on tiny heat engines offers new insights into energy movement.

A look into the fundamentals and applications of graph theory.

A look into how TRPV4 influences sweating in humans and mice.

Explore how Fisher information quantifies uncertainty across various scientific fields.

Exploring the Composite QDrift-Product approach for efficient quantum system simulations.

Examining how chiral structures behave in varying temperatures and their significance.

Discover how hypergraphs enhance our analysis of complex relationships in various fields.

Research reveals complex behaviors of forces acting on particles in various settings.

New method enhances data integration in single-cell genomics, improving biological insights.

Examining complex interactions between predators and prey for ecosystem management.

A look into genetic change and adaptation in various species.

LUCYD enhances microscopy images, merging traditional methods with deep learning for better clarity.

Exploring how biological systems process information through Bayesian inference.

Leveraging large language models to improve biological data extraction and analysis.

This article examines the structural similarities between neurons and trees.

New coarse-graining methods improve simulations of complex systems while cutting computational costs.