Latest Articles for Engineering

Discover how tiny particles absorb shocks and transform our understanding of materials.

Explore how materials respond to stress in engineering and science.

Explore the hidden complexities of fluid dynamics and contact lines.

Discover the potential of quantum computing in solving complex problems.

Discover how symplectic maps help us understand complex systems and their dynamics.

Learn how FDM simplifies complex equations through grids and variable meshes.

Explore the intriguing world of harmonic measure and Brownian motion.

A look into RSDEs and their impact on decision-making in uncertain environments.

Discover the fascinating world of bicomplex numbers and their unique properties.

Discover how simulations transform research and innovation across various fields.

Discover how molecular structure impacts charge movement in organic semiconductors.

Neural operators offer new solutions for complex partial differential equations in science and engineering.

A deep dive into how a string interacts with rigid surfaces.

Discover how shape optimization enhances engineering design performance.

Unveiling the fascinating world of tangles and their mathematical significance.

Discover MPECs and their real-world applications through implicit programming.

Discover a fresh method for managing tricky optimization challenges.

A new approach to simplifying hardware design through multi-agent systems.

Learn how PDMS affects adhesion and its real-world applications.

Discover self-test loss functions that improve model accuracy in science and engineering.

Discover the quantum-dot engine's role in energy efficiency.

Discover how least squares methods simplify complex mathematical challenges in various fields.

Flexible cycles in multigrid methods improve speed and accuracy in complex problem-solving.

Discover how neuromorphic computing enhances signal processing efficiency.

Explore how cubic matrices shape our data-driven world.

Learn how Lyapunov stability helps us analyze system behavior over time.

Discover how compact objects move through thick fluids and the science behind it.

Discover the challenges and strategies in shape optimization amidst incomplete data.

Discover how double RF systems enhance synchrotron performance for scientific research.

Exploring optimal shapes for material performance in elasticity theory.

Discover the unexpected behavior of heat in convex shapes.

Discover the fascinating behavior of hydrogels and their frictional properties.

Witness the future of racing with self-driving cars competing on the track.

Discover how quadrature rules and splines work together in numerical analysis.

Learn how dual-band monopole antennas enhance modern mobile communication.

A user-friendly software that simplifies uncertainty quantification for researchers.

A closer look at operator learning and neural networks for solving complex equations.

Explore how ionic liquids transport heat and their potential applications.

A fresh approach to understanding specific heat in light actinide metals.

Learn how researchers tackle uncertainty in complex systems using optimal control methods.