While terahertz systems still rely on four core hardware levers—sources, detectors, modulators/polarization control, and near ...

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

Researchers developed a terahertz imaging platform that uses deep learning to separate chemical signatures from noise. 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 ...

Medical imaging via X-rays, CT scans, MRIs and ultrasounds provide health-care professionals with unique perspectives and a better understanding of what's happening inside a patient's body. Using ...

A German research group has used spectroscopic methods based on terahertz or microwave radiation and has discovered that they might help with more precise assessments of the characteristics and ...

Researchers developed an optoacoustic (OA) terahertz spectroscopy system that can be used for long-term, non-invasive monitoring of blood sodium levels. Their approach successfully reduces signal ...

Photonic and terahertz circuits integrated and tested on a single chip. The generated terahertz radiation is collected by the gold mirror in the back to be used for spectroscopy (or sensing) of ...

Terahertz (THz) radiation is essential in many next-generation applications, including high-speed wireless communications, chemical sensing, and advanced material analysis. To harness THz waves, ...