Latest Articles for Science

Understanding uncertainty quantification methods enhances engineering decision-making.

A method to estimate probability distributions in uncertain systems.

Learn how microgels are changing science and technology across various fields.

New lightweight diamond maser advances technology and opens research possibilities.

CACTUS combines LLMs and cheminformatics to aid drug discovery and molecular analysis.

Examining the barriers to idea sharing in international scientific communities.

A method that improves approximation of mathematical models using neural networks and finite elements.

Scrutiny of claims about the removal of vital genetic data related to COVID-19 origins.

Discover a powerful solver for tackling complex nonlinear equations in various fields.

A study explores the use of deep neural networks in understanding radiation exposure risk.

A study on whether AI can conduct independent scientific research.

An overview of hypermaps and their significance in mathematics and science.

This article examines how quantum computing can enhance clinical trial design and outcomes.

This article examines how student expectations shape their lab experiences and learning.

AI and ML transform how students are assessed in science education.

An analysis of the relationship between journalists and scientific research.

Research links thermodynamics and evolution using computer simulations to study organism adaptation.

Learn how quantum computing, especially the HHL algorithm, is changing the way we solve complex problems.

A novel method enhances solutions for complex spatiotemporal equations in science.

Microcombs are evolving to enhance measurement accuracy through noise reduction techniques.

A look into knot invariants and their properties.

Learn how ontologies help us classify and understand matter.

A look at the history and impact of particle accelerators in Germany.

This article presents a novel approach to analyze high-dimensional entangled systems.

A method for calculating Lyapunov exponents in renewal equations to study system behavior.

A new method helps programmers verify units in scientific software.

A new method helps identify errors in simulation models.

This article discusses methods for estimating changing parameters in dynamic systems using real-time data.

Quantum computing leverages unique quantum principles to perform complex calculations rapidly.

A new method enhances stability in mechanical resonators, improving various device performances.

Explore the latest advancements in proteomics technology and data interpretation.

Discover how Response Matching transforms material and molecule generation.

New method sheds light on nucleation and crystal formation.

A method to improve model accuracy by addressing uncertainties while ensuring stability.

Semla revolutionizes molecular generation for drug design, speeding up and improving accuracy.

A look at how curvature helps understand complex networks.

A look at how converged computing blends HPC and cloud for scientific advancements.

Guesswork is vital for scientific theories and digital systems.

A look at how scientists evaluate causality across various fields.

A new method enhances learning from noisy data in physics and quantum simulations.