A hybrid electroluminescence device achieves room-temperature single-photon emission, advancing quantum technologies with scalable and efficient sources.

Scientists test a laser mass spectrometer that identifies microbial fossils in gypsum, enhancing the search for ancient life ...

Perovskite solar cells could last ten times longer thanks to new research led by the University of Surrey, which suggests ...

UEF's study reveals quantum optical phenomena at changing boundaries, advancing four-dimensional quantum optics and its ...

Optical filters play a vital role in satellite communication, enabling efficient data transfer and overcoming environmental ...

This research uncovers the potential of polaritons in OLEDs, highlighting pathways to enhance efficiency and brightness in ...

Purdue and Chalmers researchers develop microcomb technology, miniaturizing optical atomic clocks for enhanced precision in ...

The Talbot effect in cylindrical systems is explored, offering unprecedented control over light's structure and promising ...

This innovative flat lens design achieves precise light focusing without color aberrations, promising advancements in ...

Research on ferroelectric materials shows that optimizing charge dynamics and reducing defects significantly improve ...

A new study explores how PIM-1, a polymer of intrinsic microporosity, enhances luminescent solar concentrators (LSCs) by ...

By mimicking natural antimicrobial textures, laser surface texturing enhances metal surfaces, preventing bacterial growth in ...