Latest Articles for Engineering

Examining how noise influences fluid behavior through Lévy areas and Wong-Zakai anomalies.

Tilted P-N junctions enhance valley polarization in graphene for better electronic devices.

Exploring how VarQITE can solve Maxwell's equations using quantum computing.

A look into boundary control methods for the KdVBH equation.

Semiconductor disk lasers offer efficiency and versatility for diverse applications.

Fractional calculus expands mathematical tools for complex system modeling across various fields.

This article explores better ways to estimate errors in numerical methods for equations describing substance spread.

Using neural networks offers new insights into friction dynamics and predictive modeling.

Engineers use advanced methods to keep safety-critical systems stable and secure.

A study on how resetting oscillators can promote system synchronization.

Learn how engineers deal with uncertainty for safer designs.

Introducing a finite volume scheme for scalar conservation laws with abrupt changes.

A new method for solving complex elliptic equations using ghost points.

Examining how positive Lur'e systems maintain stability under various conditions.

Examining how external forces affect solute movement in various materials.

A new method improves moment estimation with less computation and greater accuracy.

Exploring turbulent flows and their impact on various natural and industrial processes.

Study of fluid dynamics over obstacles enhances knowledge in various fields.

Examining methods used to simulate how solids move through fluids across various fields.

A new method improves 3D environment mapping using point cloud mosaicking.

New method enhances uncertainty quantification in DeepONets using Ensemble Kalman Inversion.

Understanding how homogenization simplifies complex random processes.

This article explores how surface tension and gravity affect liquid behavior.

Efficient techniques for solving complex matrix equations in various scientific fields.

A fast and precise method for measuring distances using frequency comb lasers.

Researchers tackle noise issues in quantum simulators for better gauge theory insights.

Carbon nanotube films control light emission for sensors and electronics.

A new method enhances polynomial optimization efficiency.

New methods improve our ability to find polynomial roots efficiently.

A new method enhances the efficiency of multi-physics simulations for lasers.

This article explores stiffness and chaos in differential equations and their impact on numerical solutions.

Rydberg atom antennas offer high sensitivity and low noise in radio frequency detection.

A new loss function enhances the reliability of neural operators for solving PDEs.

A new method enhances the optimization of complex simulations by reducing uncertainty.

Exploring the role of quantum computing in solving linear equations with sparse matrices.

This article discusses new methods for accurately capturing shocks in fluid dynamics.

Introducing polyarcular intervals for improved error management in complex calculations.

An overview of mixed local-nonlocal equations and their significance in various fields.

A new method enhances quantum computing's role in solving Partial Differential Equations.

An overview of Bessel functions, their properties, and applications in various fields.