Latest Articles for Science

Exploring the role of oriented hypergraphs in modeling complex chemical interactions.

New techniques enhance optimization in science and engineering with implicit constraints.

Combining deep learning and sparse regression to improve equation discovery from noisy data.

New methods improve speed and accuracy in simulating materials.

A new approach enhances Hamiltonian system modeling despite noisy data.

COVID-19 reshaped research, boosting papers but raising concerns about citation fairness.

Research reveals methods to improve accuracy in verifying scientific claims from various knowledge sources.

This article reviews the effectiveness of four causal discovery methods in complex data.

New analysis reveals inaccuracies in claims about reduced innovation in scientific papers and patents.

Exploring the changing ways we visualize the human body over time.

Exploring how bidirectional dispersive equations reveal intricate wave behaviors.

Interdisciplinary learning and global collaboration strengthen education to tackle pressing issues.

New methods in design optimization enhance device performance in photonics and optics.

Discover the hidden relationships and patterns among Nobel Prize winners.

MargheRita streamlines metabolite identification and analysis in research.

Examining how jump processes affect the occurrence of rare events.

Learn how remote magnetometry transforms magnetic field measurement in challenging environments.

A program aims to spark interest in quantum computing among high school students and teachers.

Advanced techniques improve how scientists study molecular behaviors in biology and chemistry.

A new method boosts PDE solving speed while measuring prediction reliability.

A novel approach improves solutions to Fisher's equation with neural networks.

Exploring how generative AI aids scientists in crafting engaging Tweetorials.

Language models aim to improve science learning by providing personalized assistance.

A look at the significance of polynomials and their behaviors in various fields.

A new approach boosts language models' scientific reasoning through effective tool usage.

A new method enhances visualization efficiency in scientific data analysis.

Cheetah speeds up particle beam simulations, enhancing research in accelerator physics.

Survey reveals insights on science communication practices among NIH staff.

Examining the accuracy and reliability of at-home gut microbiome tests.

Examining the links between image generation models and associative memory.

A new method for analyzing multiple datasets improves accuracy and insights.

Combining diverse data sources boosts predictive modeling in materials research.

This article discusses methods to enhance telescope image quality by addressing petal mode distortion.

A look at the significance of reaction-diffusion problems in science and engineering.

A look into how we determine parameter values in differential equations.

A study on making scientific images accessible for those with color vision deficiency.

Explore improved methods for convection-diffusion problems in science and engineering.

ZüNIS simplifies Neural Importance Sampling in high-energy physics simulations, enhancing efficiency and usability.

A look at how the Time-dependent Urn Model explains innovation dynamics.

Exploring iterative methods for finding fixed points in various fields of study.