A first for physics – University of Jena physicists are first to achieve optical coherence tomography with XUV radiation at laboratory scale

However, this method would have even greater potential for science if a shorter radiation wavelength were used, thus all…

The device is a type of spectrometer—an optical instrument that takes light and breaks it down into components to reveal…

A research collaboration has revealed a new technique by which scattering of sound waves from disorder in a material can…

Using the FLUTE linear accelerator, KIT researchers explore technologies for tomorrow’s accelerators and the application of terahertz radiation in science, industry, and medicine

As a research infrastructure, FLUTE will also be used for the development of terahertz radiation measuring methods that…

As reported today in Nature Communication, the pulses Chang has now demonstrated are not just shorter in duration, but a…

The interference pattern is created by nanoparticles that move inside the material due to polymerization. The chemical p…

VUV Coating has optimized reflection from 120nm to the LWIR

TECHSPEC® Precision Ultraviolet Mirrors with a DUV coating offer excellent reflection from 190nm to the long wave infrar…

MPQ-scientists reveal hidden magnetic order in one-dimensional quantum crystals doped with holes.

The quantum crystals were prepared by chains of ultracold atoms in an optical lattice. The observation was made possible…

The Laboratory has produced the first known material capable of single-photon emission at room temperature and at telecommunications wavelengths.

These carbon nanotube quantum light emitters may be important for optically-based quantum information processing and inf…

Ultra-sensitive receiver also blocks unwanted signals.

They use highly sensitive, nondestructive measurements to entangle the atoms, while maintaining their collective coheren…

Senior APRI researcher Dr. Hoonsoo Kang's article on quantum mechanical properties of entangled photon pairs in a dispersion medium is mentioned in Spotlight on Optics

Noticed in 1990, the dispersion cancellation effect is a phenomenon in which the correlation is preserved even after a p…

Researchers exert precise control over individual electrons to create an artificial material.

Researchers have now demonstrated a method that is both effective and can be scaled up to larger numbers of quantum dots…

Combining the functionalities of both platforms enables new applications varying from telecom, datacom to bio-photonics,…

OPTAGLIO´s security elements are created with electron beam lithography with extremely high resolution, more than 2,5 mi…

Such an effect specifically appearing under a finite external magnetic field is the Faraday effect, where light polariza…

An Arizona State University researcher has made another breakthrough using the rare-earth metal erbium as the gain mater…

New optical device could help detect drugs, bomb-making chemicals and more

This new optical device has the potential to improve our abilities to detect all sorts of biological and chemical sample…

Researchers at the UAB have come up with a method that allows measuring the strength of the coherence of a quantum state…

Jena scientists generate supercontinuum light source using liquid core optical fibers and reveal a new type of soliton dynamics

The researchers pumped a hybrid waveguide with an ultrafast, intense laser pulse and produced a very broad light spectru…

Researchers experimentally demonstrated the creation of photon triplets, correlated by time, using a quantum dot molecul…