MIT physicists have built a new microscope that can see quantum motion inside superconductors ...

Physicists have finally built a microscope that can watch superconducting electrons move in real time, and the picture is far ...

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

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

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 ...

Caltech scientists have created a quantum microscope that taps into the quirky quantum rules to see tiny details much more clearly. Using pairs of entangled photons allows the instrument to double the ...

The superconducting gap sets the basic energy scale that allows electricity to flow without resistance in a superconductor. In high‑temperature cuprates, the paired electrons (Cooper pairs) are mostly ...

The researchers say this breakthrough could have applications in quantum physics, chemistry and biology. “The improvement of the temporal resolution inside of electron microscopes has been long ...

Photonic chip used in this study, mounted on a transmission electron microscope sample holder and packaged with optical fibers. Credit: Yang et al. DOI: 10.1126/science.adk2489 Photonic chip used in ...

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