A new method provides upper bounds for reaction rates in chemical networks.
― 5 min read
Cutting edge science explained simply
A new method provides upper bounds for reaction rates in chemical networks.
― 5 min read
Discover how C-CARS improves molecular analysis through enhanced signal clarity.
― 5 min read
A new quaternionic approach to studying oscillator synchronization.
― 6 min read
Explore the intriguing world of shuffle squares and their properties.
― 5 min read
Discover how math models help us understand stem cell behavior and healing.
― 6 min read
Introducing the RNA emulator for better accuracy in computer simulations.
― 6 min read
MORC proteins play key roles in gene expression and silencing mechanisms.
― 6 min read
Exploring the vital role of excitatory and inhibitory neurons in brain health.
― 6 min read
Trace reconstruction combines stats and algorithms to recover lost information from fragments.
― 6 min read
Explore the growing field of network biology and its impact on health.
― 7 min read
A clear look at surface tension and its significance in everyday life.
― 5 min read
Examining how collapsing polymers relate to jamming phenomena in materials.
― 5 min read
Investigating neurotransmitter systems to understand nervous system functions in roundworms.
― 6 min read
Protein models enhance our ability to predict protein functions and structures.
― 5 min read
Study reveals how normal and cancer tissues differ in gene expression.
― 5 min read
A new system enables fast processing of temporal graphs on single machines.
― 6 min read
Exploring the asymmetric Ising model through parametric oscillators reveals complex behaviors.
― 6 min read
SmartRunner leverages history to enhance optimization strategies across various fields.
― 7 min read
Research on small molecules disrupting ARNT interactions could lead to new therapies.
― 5 min read
An overview of reaction-diffusion models and their significance in natural processes.
― 7 min read
A look at how to identify parameters in biological models using differential equations.
― 8 min read
Learn how to control complex systems in various applications.
― 5 min read
Exploring how organisms maintain internal stability amid external changes.
― 5 min read
Learn about repeat proteins and their roles in biology and disease.
― 6 min read
New mathematical models enhance our view of DNA's intricate shapes.
― 4 min read
BigFUSE enhances image clarity in light-sheet fluorescence microscopy.
― 5 min read
Examining the behavior of particles in confined spaces and its implications.
― 6 min read
Research reveals how orientation impacts the movement of self-propelled particles.
― 5 min read
Exploring Markov mimics and their role in stochastic processes.
― 5 min read
A system designed to guide particles along specific paths using feedback control.
― 5 min read
Exploring how biological materials change shape and behave under stress.
― 5 min read
A novel method reveals changes in gene regulation using RNA sequencing data.
― 6 min read
A new method enhances local variable selection for better scientific insights.
― 6 min read
Innovative techniques enhance analysis of stochastic differential equations and their uncertainty.
― 5 min read
Exploring how noise can drive system transitions through innovative computing methods.
― 5 min read
Breather solutions reveal complex behavior in nonlinear systems through unique oscillating patterns.
― 4 min read
Exploring mathematical modeling for understanding systems across different scales.
― 6 min read
Explore the Potts model's role in phase transitions and material behavior.
― 4 min read
This article discusses methods to recover lost information in hypergraphs from simpler graph representations.
― 8 min read
An overview of intrinsic and extrinsic criticality in biological systems.
― 6 min read