A study shows that polarons can host stable atomic distortion patterns, reshaping how charge and energy move in materials ...

Raghab Singh’s research advances structure-first AI models for healthcare, combining molecular geometry and language ...

Astronomers have unravelled the mystery behind an intriguing flicker that they noticed in black hole systems, using advanced computer simulations. Black holes, the most compact objects in the ...

One of the biggest problems facing modern microelectronics is that computer chips can no longer be made arbitrarily smaller ...

As gas falls toward a black hole, it heats up and shines. If the glow becomes intense enough, it can push incoming gas away. Astronomers call this balancing point the Eddington limit, and for decades ...

Using a superconducting quantum computer, physicists created a large and complex version of an odd quantum material that has ...

When a student first learns how a simple equation can explain the motion of planets or the behaviour of light, it sparks more ...

Using data collected by NASA's Parker Solar Probe during its closest approach to the sun, a University of Arizona-led ...

Some microbes can squeeze through tight spaces by wrapping themselves in their flagellum—the tail-like structure they use to ...

A single gold nanoparticle tends to absorb within a narrow band. Much of its strongest response sits in visible wavelengths. In the new work, the scientists packed many particles into a tight, crystal ...

A thin, watery layer coating the surface of ice is what makes it slick. Despite a great deal of theorizing over the centuries, though, it isn't entirely clear why that layer forms.

Penn Engineers have developed a novel design for solar-powered data centers that will orbit Earth and could realistically scale to meet the growing demand for AI computing while reducing the ...