When we think creatively, produce novel ideas, or otherwise have “Eureka” moments, we may actually unlock access to a ...

A flash of light has turned a sheet of atoms into a dance floor. In a feat of precision physics, researchers from Cornell and ...

This paper describes the eccentricity, amplitude, phase shift, angular momentum, polarization, radial path, and orbital ...

Our universe may be hiding extra dimensions just beyond the reach of current experiments — and they could be the key to unlocking two of the most stubborn mysteries in physics. A new theoretical study ...

Could reality be made of more dimensions than those we perceive? The question has consumed some of the most brilliant physics ...

Stacking dies introduces layers of complexity driven by multi-physics interactions, which must be addressed at the start of ...

The path toward realizing practical quantum technologies begins with understanding the fundamental physics that govern quantum behavior—and how those phenomena can be harnessed in real materials.

Spacetime isn’t something that exists; it’s a model for describing how events happen. Treating events as objects creates ...

A tool called AI-Newton can derive scientific laws from raw data, but is some way from developing human-like reasoning.

If you were able to visualize the passage of time, it may appear as looping ribbons of color, these fragments ribboning and ...

A new theory-based approach provides access to the minute transverse motion of quarks within protons. Nuclear physicists have developed a new theoretical framework that allows them to calculate a ...

Quadratic equations play a vital role in explaining motion and shape in the physical world. They are used in projectile ...