If you've ever watched a glass blower at work, you've seen a material behaving in a very special way. As it cools, the viscosity of molten glass increases steadily but gradually, allowing it to be ...

The irregular, swirling motion of fluids we call turbulence can be found everywhere, from stirring in a teacup to currents in the planetary atmosphere. This phenomenon is governed by the Navier-Stokes ...

Mathematician Richard Evan Schwartz of Brown University tackled the problem in a recent study by working backward from an existing polyhedral torus to answer questions about what would be needed to ...

Hubble observations reveal a giant, turbulent planet-forming disk that may reshape theories of how planetary systems develop.

A generative AI framework rapidly designs optimized fuel cell catalyst layers that deliver significantly better performance ...

A new artificial intelligence approach combines deep learning with physical modeling to extract detailed aerosol properties from complex satellite observations. By learning how light intensity and ...

Abstract: The limited diversity and reconfigurability greatly hinder the application and development of optical nonlinearity. To address this issue, we propose a photonic nonlinear synthesizer (PNS) ...

Inspired by neurobiology, our framework aims to give generative AI a semblance of these capabilities by using what we call a metacognitive state vector, which is essentially a quantified measure of ...

Nagpur, Jan 18 (PTI) Wars have become very complex and are not limited to borders but even energy, trade, tariff, supply chains, technology and information are now part of its new dimensions, Defence ...