The transverse Thomson effect is observed for the first time: current, heat, and magnetic fields generate controlled cooling ...

The scientific and technological community is abuzz with the unveiling of a new room-temperature superconductor. This pivotal discovery holds the potential to revolutionize a myriad of industries, ...

The algorithm is grounded in math and physics and allows a nuclear microreactor to automatically control its thermal power.

Graphene is stronger than steel and a better conductor that copper, making the two-dimensional material of particular ...

A novel technique for studying vortices in quantum fluids has been developed by physicists. Turbulence in quantum systems, for example in superfluid helium 4, takes place on microscopic scales, and so ...

First discovered by Dutch physicist Heike Onnes in the early 20th century, superconductivity is a rare phenomenon observed in metallic materials where its resistance to electrons flow was lost at ...

For the first time, scientists have figured out how to measure a system, no matter how extreme the energy difference. Two UA physicists may have fundamentally altered thinking about thermodynamics, a ...

Ferrimagnets are a special type of magnet where different atoms' magnetic moments partially cancel each other out, creating a ...

An abrupt transition in the electrical resistance of graphite at 350 K could be a signature of superconductivity occurring well above room temperature (293 K). That is the claim of Pablo Esquinazi and ...

A new physics-based algorithm clears a path toward nuclear microreactors that can autonomously adjust power output based on ...

I'm not saying go build this it's guaranteed to work. It's just the first thing that came to my head. I'm no physics professor nor did I ever take a lecture on thermodynamics. What I am doing is ...