Terahertz microscope reveals the motion of superconducting electrons

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

MIT Scientists Shrink Terahertz Light To Reveal Hidden Quantum “Jiggles”

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

World’s first terahertz microscope shows long-hidden quantum jiggle in superconductors

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

Integrated Metasurface-Freeform System Enabled Multi-Focal Planes Augmented Reality Display

A new publication DOI 10.29026/oes.2026.250031, discusses an integrated metasurface-freeform system enabled multi-focal ...

Global first: Physicists use light to reveal quantum vibrations in a superconducting material

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

Light breaks its own limit by 100,000× to image matter at the scale of atoms

For over a century, light has both helped and limited our view of the ...

MIT scientists build terahertz microscope that reveals hidden superconducting motion

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 ...

Scientists just spotted a truly humongous Schrödinger’s cat

It may sound like an oxymoron, but this massive nanoparticle made up of 7,000 sodium atoms is the largest to exhibit such ...
AlphaGalileo

Fig. 2 The next generation of optical neural networks

A new publication from Opto-Electronic Sciences; DOI 10.29026/oes.2026.250031, discusses an integrated metasurface-freeform ...
Aalto University

Postdoctoral researcher or Research Fellow position in ultrawide bandgap (UWBG) power devices with MOVPE grown AlN/AlGaN

Our current research focuses on developing AlN and high–Al-content AlGaN power devices using distributed polarization doping approaches for next-generation power electronics. Our mission is to enable ...