With THz spectroscopy scaled down to chip-sized, researchers identified a potential new way to control quantum materials.

A research team from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences has constructed a copper (Cu ...

Chirality, a property where structures have a distinct left- or right-handedness, allows natural semiconductors to move ...

Breakthrough from Princeton team reveals exotic quantum state that coherently blends many-body correlation and quantum ...

In a stunning leap for quantum optics, scientists have generated ultrafast light pulses whose quantum uncertainty can be ...

Uncover how mixed-signal ICs are transforming medical wearables with smaller and more power-efficient sensor integration, ...

Scientists grew defective graphene using Azupyrene, making it more useful for sensors and semiconductors. The defects alter ...

PLQY is a measure of how efficiently a material converts absorbed light into emitted light. It’s the ratio of the number of ...

Hypergap materials reveal a second transparent region above the bandgap, overturning assumptions about optical limits and ...

Multilayer cobalt phthalocyanine catalysts show superior performance in CO2 reduction, advancing electrocatalytic systems for ...

Screening and security equipment has become a part of everyday public life, whether that equipment is visible or behind the ...