By controlling magnetic fields using light, a team of researchers led by NTU scientists has solved a long-standing challenge to precisely direct electric currents produced by quantum materials. Their ...

This useful study supplements previous publications of willed attention by addressing a frontoparietal network that supports internal goal generation. The evidence is solid in analyzing two datasets ...

Too often organizations start with PPE instead of eliminating hazards at the source. Applying the Hierarchy of Controls in the correct order is key to sustainable risk reduction and safer workplaces.

Every engineering leader watching the agentic coding wave is eventually going to face the same question: if AI can generate production-quality code faster than any team, what does governance look like ...

Construction Safety Week is a celebration of our industry’s commitment to health and safety—a commitment that has driven remarkable progress and saved countless lives. This year’s theme, All In ...

Important everyday products—from plastics to detergents—are made through chemical reactions that mostly use precious metals such as platinum as catalysts. Scientists have been searching for more ...

If you drive a quantum system with a perfectly time-periodic force, that drive can reshape the system's quantum states into new, controllable 'dressed' states with properties that differ from the ...

Abstract: This tutorial highlights the engineering aspects of developing AI-based control systems. It renders the whole systems engineering spectrum from safety assessment to requirements engineering, ...

As artificial intelligence (AI) technology rapidly advances and becomes widely integrated into industries and our daily lives, the nuclear industry is also exploring the use of AI applications. To ...

Controlling magnetic states in materials typically requires continuous power or only works in rare, specialized systems. Researchers developed a general theory showing how electric fields can ...