A clever method from Caltech researchers now makes it possible to unravel complex electron-lattice interactions, potentially transforming how we understand and design quantum and electronic materials.

Using an advanced Monte Carlo method, Caltech researchers found a way to tame the infinite complexity of Feynman diagrams and ...

A research team in South Korea has developed a cutting-edge catalytic and separation process that enables the simultaneous ...

Professor Xiao-Gang He and Dr. Chia-Wei Liu of Shanghai Jiao Tong University's Tsung-Dao Lee Institute (TDLI) used the ...

Experiments show that carbon nanotubes transfer heat inefficiently at small scales, raising concerns for cooling and ...

This session will feature exclusive data from the EdWeek Research Center on the biggest challenges identified by math teachers. Audience members will have a chance to share their perspectives on which ...

Learn about Richard Feynman, the Nobel Prize-winning physicist known for quantum electrodynamics, his unique teaching style, ...

He’s a celebrity chef who understands not everyone may be as keen to light up the stove as he is – although Gary Mehigan ...

Copper indium sulfide (CuInS2) are still far from reaching commercial maturity but new titanium dioxide nanorod arrays can ...

Effective note-taking is a skill that often goes underestimated. Yet, it's essential for academic success, especially in ...

MIT professor John Ochsendorf teaches students how to build bridges and how to look to history as a guide. For professional bridge-builders, there is a lot to learn from the past, says Ochsendorf, who ...