Physicists in Leiden have built a microscope that can measure no fewer than four key properties of a material in a single ...

By squeezing terahertz light beyond its usual limits, researchers have exposed hidden quantum "jiggles" inside a ...

The implications of the breakthrough could ripple through multiple industries. A better understanding of how superconductivity behaves at quantum scales could accelerate the development of ...

This novel terahertz microscope from MIT enables the observation of superconducting electron dynamics, crucial for future ...

With the terahertz scope, the team observed a frictionless “superfluid” of superconducting electrons that were collectively ...

MIT researchers have built a terahertz microscope that reveals hidden quantum motion inside superconductors for the first time.

You can tell a lot about a material based on the type of light you shine at it: Optical light illuminates a material's ...

Scientists have shattered the diffraction limit, using continuous-wave lasers to resolve images at 0.1 nanometers.

When looking through a microscope, the level of detail that is visible isn't just about how much we magnify, but is actually determined by resolution. Resolution refers to the smallest distance ...